OOMMFOOMMF Citation List


We appreciate being informed of publications that have used OOMMF. Below is a list of papers we know about. If you know of others, please contact us at michael.donahue@nist.gov.

When referencing OOMMF software, we ask that you cite the following NIST technical report:

OOMMF User's Guide, Version 1.0
M.J. Donahue and D.G. Porter
Interagency Report NISTIR 6376,
National Institute of Standards and Technology, Gaithersburg, MD (Sept 1999)
and optionally include the address of the OOMMF home page, http://math.nist.gov/oommf, and the specific release you are using. Citing this report helps us to track OOMMF usage through citation databases.
  1. Magnetic vortices in nanocaps induced by curvature,
    Ahmed M. Abdelgawad, Nikhil Nambiar, Mukund Bapna, Hao Chen, and Sara A. Majetich,
    AIP Advances, 8, 056321 (5 pages) (May 2018). doi: 10.1063/1.5007213

  2. Dynamical switching of confined magnetic skyrmions under circular magnetic fields,
    S. Abdizadeh, J. Abouie, and Kh. Zakeri,
    Physical Review B, 101, 024409 (12 pages) (Jan 2020). doi: 10.1103/PhysRevB.101.024409

  3. Magnetization reversal by confined droplet growth in soft/hard hybrid nanodisks with perpendicular anisotropy,
    J.P. Adam, S. Rohart, J.P. Jamet, J. Ferré, A. Mougin, R. Weil, H. Bernas, and G. Faini,
    Physical Review B, 85, 214417 (7 pages) (Jun 2012). doi: 10.1103/PhysRevB.85.214417

  4. Magnetization process of a single chain of nanomagnets,
    A.O. Adeyeye and M.E. Welland,
    Applied Physics Letters, 80, 2344-2346 (Apr 2002). doi: 10.1063/1.1464662

  5. Domain wall trapping at mesoscopic ferromagnetic junctions,
    A.O. Adeyeye and M.E. Welland,
    Journal of Applied Physics, 92, 3896-3901 (Oct 2002). doi: 10.1063/1.1506189

  6. Magnetoresistance behavior of single castellated Ni80Fe20 nanowires,
    A.O. Adeyeye and R.L. White,
    Journal of Applied Physics, 95, 2025-2028 (Feb 2004). doi: 10.1063/1.1637726

  7. Spin state evolution and magnetic anisotropy of elongated Ni80Fe20 nanorings,
    A.O. Adeyeye, N. Singh, and S. Goolaup,
    Journal of Applied Physics, 98, 094301 (6 pages) (Nov 2005). doi: 10.1063/1.2099511

  8. Magnetostatic coupling in arrays of elongated Ni80Fe20 rings,
    A.O. Adeyeye, S. Goolaup, N. Singh, C.C. Wang, X.S. Gao, C.A. Ross, W. Jung, and F.J. Castaño,
    Journal of Physics D: Applied Physics, 40, 6479-6483 (Nov 2007). doi: 10.1088/0022-3727/40/21/001

  9. Reversal mechanisms in ferromagnetic nanostructures,
    A.O. Adeyeye, S. Goolaup, N. Singh, W. Jun, C.C. Wang, S. Jain, and D. Tripathy,
    IEEE Transactions on Magnetics, 44, 1935-1940 (Jul 2008). doi: 10.1109/TMAG.2008.924539

  10. Large area patterned magnetic nanostructures,
    A.O. Adeyeye and N. Singh,
    Journal of Physics D: Applied Physics, 41, 153001 (29 pages) (Aug 2008). doi: 10.1088/0022-3727/41/15/153001

  11. Anisotropic spin-wave propagation in asymmetric width modulated Ni80Fe20 nanostripes,
    Arundhati Adhikari, Chandrima Banerjee, Amrit Kumar Mondal, Avinash Kumar Chaurasiya, Samiran Choudhury, Jaivardhan Sinha, Saswati Barman, and Anjan Barman,
    Materials Science and Engineering: B, 272, 115385 (5 pages) (Oct 2021). doi: 10.1016/j.mseb.2021.115385

  12. Bias field tunable magnetic configuration and magnetization dynamics in Ni80Fe20 nano-cross structures with varying arm length,
    K. Adhikari, S. Choudhury, R. Mandal, S. Barman, Y. Otani, and A. Barman,
    Journal of Applied Physics, 121, 043909 (5 pages) (Jan 2017). doi: 10.1063/1.4974886

  13. Tunable angle-dependent magnetization dynamics in Ni80Fe20 nanocross structures of varying size,
    Kartik Adhikari, Saswati Barman, Ruma Mandal, Yoshichika Otani, and Anjan Barman,
    Physical Review Applied, 10, 044010 (9 pages) (Oct 2018). doi: 10.1103/PhysRevApplied.10.044010

  14. Large nonlinear ferromagnetic resonance shift and strong magnon-magnon coupling in Ni80Fe20 nanocross array,
    Kartik Adhikari, Sourav Sahoo, Amrit Kumar Mondal, Yoshichika Otani, and Anjan Barman,
    Physical Review B, 101, 054406 (6 pages) (Feb 2020). doi: 10.1103/PhysRevB.101.054406

  15. Observation of magnon-magnon coupling with high cooperativity in Ni80Fe20 cross-shaped nanoring array,
    Kartik Adhikari, Samiran Choudhury, Saswati Barman, Yoshichika Otani, and Anjan Barman,
    Nanotechnology, 32, 395706 (8 pages) (Jul 2021). doi: 10.1088/1361-6528/ac0ddc

  16. Micromagnetic study of soft magnetic nanowires,
    F. Ahmadi, M.J. Donahue, Y. Sozer, and I. Tsukerman,
    AIP Advances, 9, 125047 (5 pages) (Dec 2019). doi: 10.1063/1.5130157

  17. Kinetic and static domain-wall pinning at notches on ferromagnetic nanowires,
    S.M. Ahn, D.H. Kim, and S.B. Choe,
    IEEE Transactions on Magnetics, 45, 2478-2480 (Jun 2009). doi: 10.1109/TMAG.2009.2018662

  18. Control of domain wall pinning in ferromagnetic nanowires by magnetic stray fields,
    S.-M. Ahn, K.-W. Moon, C.-G. Cho, and S.-B. Choe,
    Nanotechnology, 22, 085201 (5 pages) (Feb 2011). doi: 10.1088/0957-4484/22/8/085201

  19. Control of domain-wall injection field with different nucleation pad geometry,
    S-.M. Ahn, K.-W. Moon, C.-G. Cho, and S.-B. Choe,
    Journal of Nanoscience and Nanotechnology, 11, 6476-6478 (Jul 2011). doi: 10.1166/jnn.2011.4482

  20. Oscillatory reduction of domain wall depinning field by transverse magnetic field in ferromagnetic permalloy nanowires,
    S.-M. Ahn, K.-W. Moon, and S.-B. Choe,
    Journal of Nanoscience and Nanotechnology, 11, 6472-6475 (Jul 2011). doi: 10.1166/jnn.2011.4477

  21. Enhanced controllability of domain-wall pinning by asymmetric control of domain-wall injection,
    Sung-Min Ahn and Kyoung-Woong Moon,
    Nanotechnology, 24, 105304 (5 pages) (Feb 2013). doi: 10.1088/0957-4484/24/10/105304

  22. Enhanced controllability of domain-wall pinning by selective domain-wall injection,
    Sung-Min Ahn,
    Journal of Applied Physics, 113, 17B501 (3 pages) (Mar 2013). doi: 10.1063/1.4794135

  23. Focused ion beam irradiation for generation of skyrmionic bubble like structures,
    Valentin Ahrens, Simon Mendisch, Waldemar Kaiser, Martina Kiechle, Stephan Breitkreutz-v. Gamm, and Markus Becherer,
    Journal of Magnetism and Magnetic Materials, 523, 167591 (5 pages) (Apr 2021). doi: 10.1016/j.jmmm.2020.167591

  24. Current-induced domain wall motion in permalloy nanowires with a rectangular cross-section,
    J.H. Ai, B.F. Miao, L. Sun, B. You, An Hu, and H.F. Ding,
    Journal of Applied Physics, 110, 093913 (6 pages) (Nov 2011). doi: 10.1063/1.3658219

  25. Simulation of inhomogeneous magnetoelastic anisotropy in ferroelectric/ferromagnetic nanocomposites,
    Nicolas M. Aimon, Jiexi Liao, and C.A. Ross,
    Applied Physics Letters, 101, 232901 (5 pages) (Dec 2012). doi: 10.1063/1.4768958

  26. Stochastic nature of the domain wall depinning in permalloy magnetic nanowires,
    J. Akerman, M. Muñoz, M. Maicas, and J.L. Prieto,
    Physical Review B, 82, 064426 (5 pages) (Aug 2010). doi: 10.1103/PhysRevB.82.064426

  27. Selective injection of magnetic domain walls in Permalloy nanostripes,
    Johanna Akerman, Manuel Muñoz, Marco Maicas, and José L. Prieto,
    Journal of Applied Physics, 115, 183909 (6 pages) (May 2014). doi: 10.1063/1.4876302

  28. Modeling the distribution of magnetization in a rectangular strip with an axis of easy magnetization perpendicular to the plane,
    M.L. Akimov, P.A. Polyakov, and V.S. Shevtsov,
    Bulletin of the Russian Academy of Sciences: Physics, 84, 596-598 (May 2020). doi: 10.3103/S1062873820050032

  29. Three-terminal magnetic tunnel junction synapse circuits showing spike-timing-dependent plasticity,
    Otitoaleke Akinola, Xuan Hu, Christopher H. Bennett, Matthew Marinella, Joseph S. Friedman, and Jean Anne C. Incorvia,
    Journal of Physics D: Applied Physics, 52, 49LT01 (11 pages) (Sep 2019). doi: 10.1088/1361-6463/ab4157

  30. Controlling domain wall thermal stability switching in magnetic nanowires for storage memory nanodevices,
    M. Al Bahri,
    Journal of Magnetism and Magnetic Materials, 543, 168611 (7 pages) (Feb 2022). doi: 10.1016/j.jmmm.2021.168611

  31. Vortex domain wall thermal stability in magnetic nanodevices with in-plane magnetic anisotropy,
    Mohammed Al Bahri and Thuraya Al Harthy,
    physica status solidi (a), 220, 2200586 (8 pages) (Jan 2023). doi: 10.1002/pssa.202200586

  32. Effect of nanomagnet geometry on reliability, energy dissipation, and clock speed in strain-clocked DC-NML,
    Md Mamun Al-Rashid, Dhritiman Bhattacharya, Supriyo Bandyopadhyay, and Jayasimha Atulasimha,
    IEEE Transactions on Electron Devices, 62, 2978-2986 (Sep 2015). doi: 10.1109/TED.2015.2453118

  33. Nucleation of superconductivity and vortex matter in superconductor-ferromagnet hybrids,
    A.Yu. Aladyshkin, A.V. Silhanek, W. Gillijns, and V.V. Moshchalkov,
    Superconductor Science and Technology, 22, 053001 (48 pages) (Mar 2009). doi: 10.1088/0953-2048/22/5/053001

  34. On-chip clocking for nanomagnet logic devices,
    M.T. Alam, M.J. Siddiq, G.H. Bernstein, M. Niemier, W. Porod, and X.S. Hu,
    IEEE Transactions on Nanotechnology, 9, 348-351 (May 2010). doi: 10.1109/TNANO.2010.2041248

  35. On-chip clocking of nanomagnet logic lines and gates,
    M.T. Alam, S.J. Kurtz, M.A.J. Siddiq, M.T. Niemier, G.H. Bernstein, X.S. Hu, and W. Porod,
    IEEE Transactions on Nanotechnology, 11, 273-286 (Mar 2012). doi: 10.1109/TNANO.2011.2169983

  36. Multistate nanomagnetic logic using equilateral Permalloy triangles,
    Meshal Alawein, Selma Amara, and Hossein Fariborzi,
    IEEE Magnetics Letters, 10, 6102005 (5 pages) (Feb 2019). doi: 10.1109/LMAG.2019.2899819

  37. Domain wall engineering through exchange bias,
    E. Albisetti and D. Petti,
    Journal of Magnetism and Magnetic Materials, 400, 230-235 (Feb 2016). doi: 10.1016/j.jmmm.2015.07.009

  38. Nanopatterning spin-textures: A route to reconfigurable magnonics,
    E. Albisetti, D. Petti, M. Madami, S. Tacchi, P. Vavassori, E. Riedo, and R. Bertacco,
    AIP Advances, 7, 055601 (7 pages) (May 2017). doi: 10.1063/1.4973387

  39. Dewetting of Ni thin films obtained by atomic layer deposition due to the thermal reduction process: Variation of the thicknesses,
    Daniela Alburquenque, Marcela Del Canto, Claudia Arenas, Felipe Tejo, Alejandro Pereira, and Juan Escrig,
    Thin Solid Films, 638, 114-118 (Sep 2017). doi: 10.1016/j.tsf.2017.07.041

  40. Size driven barrier to chirality reversal in electric control of magnetic vortices in ferromagnetic nanodiscs,
    W.A.S. Aldulaimi, M.B. Okatan, K. Sendur, M.C. Onbasli, and I.B. Misirlioglu,
    Nanoscale, 15, 707-717 (Jan 2023). doi: 10.1039/D2NR02768B

  41. Modelling of the magnetization reversal in amorphous magnetic microwires,
    Yu.A. Alekhina and N.S. Perov,
    Bulletin of the Russian Academy of Sciences: Physics, 86, 120-123 (Feb 2022). doi: 10.3103/S1062873822020034

  42. Spin waves in circular soft magnetic dots at the crossover between vortex and single domain state,
    F.G. Aliev, J.F. Sierra, A.A. Awad, G.N. Kakazei, D.-S. Han, S.-K. Kim, V. Metlushko, B. Ilic, and K.Y. Guslienko,
    Physical Review B, 79, 174433 (7 pages) (May 2009). doi: 10.1103/PhysRevB.79.174433

  43. Localized domain-wall excitations in patterned magnetic dots probed by broadband ferromagnetic resonance,
    F.G. Aliev, A.A. Awad, D. Dieleman, A. Lara, V. Metlushko, and K.Y. Guslienko,
    Physical Review B, 84, 144406 (5 pages) (Oct 2011). doi: 10.1103/PhysRevB.84.144406

  44. Domain wall energy landscapes in amorphous magnetic films with asymmetric arrays of holes,
    A. Alija, A. Pérez-Junquera, G. Rodríguez-Rodríguez, M. Vélez, V.I. Marconi, A.B. Kolton, J.V. Anguita, J.M. Alameda, J.M.R. Parrondo, and J.I. Martín,
    Journal of Physics D: Applied Physics, 42, 045001 (6 pages) (Feb 2009). doi: 10.1088/0022-3727/42/4/045001

  45. Influence of boundary geometry in domain wall propagation in magnetic films with asymmetric holes: Micromagnetic calculations,
    A. Alija, I. Sobrado, G. Rodríguez-Rodríguez, M. Vélez, J.M. Alameda, J.M.R. Parrondo, and J.I. Martín,
    Journal of Physics: Conference Series, 200, 042001 (4 pages) (Jan 2010). doi: 10.1088/1742-6596/200/4/042001

  46. Crossed ratchet effects on magnetic domain walls: Geometry and transverse field effects,
    A. Alija, A. Hierro-Rodríguez, A. Pérez-Junquera, J.M. Alameda, J.I. Martín, and M. Vélez,
    Journal of Physics D: Applied Physics, 44, 325002 (7 pages) (Jul 2011). doi: 10.1088/0022-3727/44/32/325002

  47. Submicrometer ferromagnetic NOT gate and shift register,
    D.A. Allwood, Gang Xiong, M.D. Cooke, C.C. Faulkner, D. Atkinson, N. Vernier, and R.P. Cowburn,
    Science, 296, 2003-2006 (Jun 2002). doi: 10.1126/science.1070595

  48. Photovoltage detection of Damon-Eshbach and dipolar edge spin waves of nanomagnets with two-dimensional electron gas system,
    Najla K. Almulhem, Maksym E. Stebliy, Alain Nogaret, Jean-Claude Portal, Harvey E. Beere, and David A. Ritchie,
    Japanese Journal of Applied Physics, 57, 09TF01 (4 pages) (Aug 2018). doi: 10.7567/JJAP.57.09TF01

  49. Photovoltage detection of spin excitation of a ferromagnetic stripe and disk at low temperature,
    Najla K. Almulhem, Maksym E. Stebliy, Jean-Claude Portal, Alexander S. Samardak, Harvey E. Beere, David A. Ritchie, and Alain Nogaret,
    Japanese Journal of Applied Physics, 59, SEED02 (7 pages) (Apr 2020). doi: 10.35848/1347-4065/ab6a29

  50. Magnetic micro-device for manipulating PC12 cell migration and organization,
    N. Alon, T. Havdala, H. Skaat, K. Baranes, M. Marcus, I. Levy, S. Margel, A. Sharoni, and O. Shefi,
    Lab on a Chip, 15, 2030-2036 (Mar 2015). doi: 10.1039/C5LC00035A

  51. Controlled magnetic behaviour of Ni80Fe20 nanowire by a selection of nucleation pads,
    Alhanouf A. Alrwais and Hadi R. AlQahtani,
    Journal of King Saud University - Science, 32, 3039-3044 (Oct 2020). doi: 10.1016/j.jksus.2020.08.010

  52. Spin waves observation and their modeling through effective parameters in antidot arrays,
    G. Amato, A. Caprile, F. Celegato, M. Coisson, G. Conta, M. Kuepferling, A. Magni, A. Manzin, C. Ragusa, A. Rahim, and P. Tiberto,
    IEEE Transactions on Magnetics, 52, 7100205 (5 pages) (May 2016). doi: 10.1109/TMAG.2016.2518239

  53. Features of calculation and investigation of volt-oersted characteristics of an anisotropic magnetoresistive sensor,
    V.V. Amelichev, D.A. Zhukov, S.I. Kasatkin, D.V. Kostyuk, O.P. Polyakov, P.A. Polyakov, and V.S. Shevtsov,
    Technical Physics Letters, 47, 482-484 (Dec 2021). doi: 10.1134/S1063785021050187

  54. Systematic study of magnetization reversal in beaded fibers from different magnetic materials,
    Fedi Amini, Tomasz Blachowicz, and Andrea Ehrmann,
    Journal of Magnetism and Magnetic Materials, 529, 167855 (7 pages) (Jul 2021). doi: 10.1016/j.jmmm.2021.167855

  55. Spin morphologies and heat dissipation in spherical assemblies of magnetic nanoparticles,
    Manish Anand, Julian Carrey, and Varsha Banerjee,
    Physical Review B, 94, 094425 (12 pages) (Sep 2016). doi: 10.1103/PhysRevB.94.094425

  56. Role of dipolar interactions on morphologies and tunnel magnetoresistance in assemblies of magnetic nanoparticles,
    Manish Anand, Julian Carrey, and Varsha Banerjee,
    Journal of Magnetism and Magnetic Materials, 454, 23-31 (May 2018). doi: 10.1016/j.jmmm.2018.01.027

  57. Dipolar interaction and sample shape effects on the hysteresis properties of 2d array of magnetic nanoparticles,
    Manish Anand,
    Pramana, 95, 181 (9 pages) (Dec 2021). doi: 10.1007/s12043-021-02222-w

  58. Exotic transverse-vortex magnetic configurations in CoNi nanowires,
    Ingrid Marie Andersen, Luis Alfredo Rodríguez, Cristina Bran, Cécile Marcelot, Sébastien Joulie, Teresa Hungria, Manuel Vazquez, Christophe Gatel, and Etienne Snoeck,
    ACS Nano, 14, 1399-1405 (Dec 2019). doi: 10.1021/acsnano.9b07448

  59. Field tunable three-dimensional magnetic nanotextures in cobalt-nickel nanowires,
    I.M. Andersen, D. Wolf, L.A. Rodriguez, A. Lubk, D. Oliveros, C. Bran, T. Niermann, U.K. Rößler, M. Vazquez, C. Gatel, and E. Snoeck,
    Physical Review Research, 3, 033085 (12 pages) (Jul 2021). doi: 10.1103/PhysRevResearch.3.033085

  60. Thermally excited spin wave modes in synthetic antiferromagnetic stripes,
    Y. Ando, Y.M. Lee, T. Aoki, T. Miyazaki, H. Schultheiß, and B. Hillebrands,
    Journal of Magnetism and Magnetic Materials, 310, 1949-1951 (Mar 2007). doi: 10.1016/j.jmmm.2006.10.828

  61. Bilayered soft/hard magnetic nanowires as in-line writing heads,
    Vivian M. Andrade, Sofia Caspani, Alejandro Rivelles, Sergey A. Bunyaev, Vladimir O. Golub, João P. Araujo, Gleb N. Kakazei, Célia T. Sousa, and Mariana P. Proenca,
    Materials & Design, 222, 111024 (9 pages) (Oct 2022). doi: 10.1016/j.matdes.2022.111024

  62. Repulsion of a Néel-type skyrmion from a pearl vortex in thin ferromagnet-superconductor heterostructures,
    E.S. Andriaykhina, S. Apostoloff, and I.S. Burmistrov,
    JETP Letters, 116, 801-807 (Nov 2022). doi: 10.1134/S0021364022602512

  63. Majority-based spin-CMOS primitives for approximate computing,
    Shaahin Angizi, Honglan Jiang, Ronald F. DeMara, Jie Han, and Deliang Fan,
    IEEE Transactions on Nanotechnology, 17, 795-806 (Jul 2018). doi: 10.1109/TNANO.2018.2836918

  64. Design and evaluation of a spintronic in-memory processing platform for nonvolatile data encryption,
    Shaahin Angizi, Zhezhi He, Nader Bagherzadeh, and Deliang Fan,
    IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 37, 1788-1801 (Sep 2018). doi: 10.1109/TCAD.2017.2774291

  65. Hybrid spin-CMOS polymorphic logic gate with application in in-memory computing,
    Shaahin Angizi, Zhezhi He, An Chen, and Deliang Fan,
    IEEE Transactions on Magnetics, 56, 3400215 (15 pages) (Feb 2020). doi: 10.1109/TMAG.2019.2955626

  66. Magnetic vortex dynamics,
    R. Antos, Y.C. Otani, and J. Shibata,
    Journal of the Physical Society of Japan, 77, 031004 (8 pages) (Mar 2008). doi: 10.1143/JPSJ.77.031004

  67. Simulations of the dynamic switching of vortex chirality in magnetic nanodisks by a uniform field pulse,
    R. Antos and Y. Otani,
    Physical Review B, 80, 140404 (4 pages) (Oct 2009). doi: 10.1103/PhysRevB.80.140404

  68. Chirality inversion and radius blowup of a Néel-type skyrmion by a Pearl vortex,
    S.S. Apostoloff, E.S. Andriyakhina, P.A. Vorobyev, Oleg A. Tretiakov, and I.S. Burmistrov,
    Physical Review B, 107, L220409 (6 pages) (Jun 2023). doi: 10.1103/PhysRevB.107.L220409

  69. Magnetic skyrmion size and stability in ultrathin nanodots accounting Dzyaloshinskii-Moriya exchange interaction,
    A.R. Aranda, A. Hierro-Rodriguez, G.N. Kakazei, O. Chubykalo-Fesenko, and K.Y. Guslienko,
    Journal of Magnetism and Magnetic Materials, 465, 471-479 (Nov 2018). doi: 10.1016/j.jmmm.2018.05.074

  70. Limits for the vortex state spin torque oscillator in magnetic nanopillars: Micromagnetic simulations for a thin free layer,
    G.R. Aranda, J.M. Gonzalez, J.J. del Val, and K.Y. Guslienko,
    Journal of Applied Physics, 108, 123914 (12 pages) (Dec 2010). doi: 10.1063/1.3524222

  71. Ferromagnetic resonance micromagnetic studies in patterned permalloy thin films and stripes,
    G.R. Aranda, G.N. Kakazei, J. González, and K.Y. Guslienko,
    Journal of Applied Physics, 116, 093908 (10 pages) (Sep 2014). doi: 10.1063/1.4894164

  72. Magnetic vortex crystal formation in the antidot complement of square artificial spin ice,
    C.I.L. de Araujo, R.C. Silva, I.R.B. Ribeiro, F.S. Nascimento, J.F. Felix, S.O. Ferreira, L.A.S. Mól, W.A. Moura-Melo, and A.R. Pereira,
    Applied Physics Letters, 104, 092402 (4 pages) (Mar 2014). doi: 10.1063/1.4867530

  73. Circular single domains in hemispherical Permalloy nanoclusters,
    Clodoaldo I.L. de Araujo, Jakson M. Fonseca, João P. Sinnecker, Rafael G. Delatorre, Nicolas Garcia, and André A. Pasa,
    Journal of Applied Physics, 116, 183906 (4 pages) (Nov 2014). doi: 10.1063/1.4901573

  74. Wave reversion mode stability as a function of diameter and wall thickness for permalloy and nickel nanotubes,
    Diana M. Arciniegas Jaimes, Sofía Raviolo, Julieta M. Carballo, Noelia Bajales, and Juan Escrig,
    Journal of Magnetism and Magnetic Materials, 523, 167578 (6 pages) (Apr 2021). doi: 10.1016/j.jmmm.2020.167578

  75. Magnetic structure and diffracted magneto-optics of patterned amorphous multilayers,
    U.B. Arnalds, E.Th. Papaioannou, T.P.A. Hase, H. Raanaei, G. Andersson, T.R. Charlton, S. Langridge, and B. Hjörvarsson,
    Physical Review B, 82, 144434 (8 pages) (Oct 2010). doi: 10.1103/PhysRevB.82.144434

  76. Magnetic-field-controlled growth of magnetoelastic phase domains in FeRh,
    Jon Ander Arregi, Friederike Ringe, Jan Hajduček, Olena Gomonay, Tomáš Molnár, Jiří Jaskowiec, and Vojtěch Uhlíř,
    Journal of Physics: Materials, 6, 034003 (15 pages) (May 2023). doi: 10.1088/2515-7639/acce6f

  77. Domain wall propagation tuning in magnetic nanowires through geometric modulation,
    L.C.C. Arzuza, R. López-Ruiz, D. Salazar-Aravena, M. Knobel, F. Béron, and K.R. Pirota,
    Journal of Magnetism and Magnetic Materials, 432, 309-317 (Jun 2017). doi: 10.1016/j.jmmm.2017.01.071

  78. Asymmetric dual Bloch point domain walls in cylindrical magnetic nanowires,
    J. Askey, M. Hunt, W. Langbein, and S. Ladak,
    APL Materials, 10, 071105 (7 pages) (Jul 2022). doi: 10.1063/5.0089291

  79. A comparison of numerical simulations and analytical theory of the dynamics of interacting magnetic vortices,
    Martin Asmat-Uceda, Xuemei Cheng, Xiao Wang, David J. Clarke, Oleg Tchernyshyov, and Kristen S. Buchanan,
    Journal of Applied Physics, 117, 123916 (6 pages) (Mar 2015). doi: 10.1063/1.4916610

  80. Geometry and field dependence of the formation of magnetic antivortices in pound-key-like structures,
    Martin Asmat-Uceda, Lin Li, Arabinda Haldar, Brian Shaw, and Kristen S. Buchanan,
    Journal of Applied Physics, 117, 173902 (8 pages) (May 2015). doi: 10.1063/1.4919598

  81. Vortex states in patterned exchange biased NiO/Ni samples,
    P. Asshoff, K. Theis-Bröhl, O. Petracic, and H. Zabel,
    Journal of Applied Physics, 106, 033909 (6 pages) (Aug 2009). doi: 10.1063/1.3186021

  82. Magnetic domain wall dynamics in a permalloy nanowire,
    Del Atkinson, Dan A. Allwood, Colm C. Faulkner, Gang Xiong, Michael D. Cooke, and Russell P. Cowburn,
    IEEE Transactions on Magnetics, 39, 2663-2665 (Sep 2003). doi: 10.1109/TMAG.2003.815548

  83. Controlling domain wall pinning in planar nanowires by selecting domain wall type and its application in a memory concept,
    D. Atkinson, D.S. Eastwood, and L.K. Bogart,
    Applied Physics Letters, 92, 022510 (3 pages) (Jan 2008). doi: 10.1063/1.2832771

  84. Magneto-optical response in bimetallic metamaterials,
    Evangelos Atmatzakis, Nikitas Papasimakis, Vassili Fedotov, Guillaume Vienne, and Nikolay I. Zheludev,
    Nanophotonics, 7, 199-206 (Jan 2018). doi: 10.1515/nanoph-2016-0162

  85. Nanoscale spin wave valve and phase shifter,
    Y. Au, M. Dvornik, O. Dmytriiev, and V.V. Kruglyak,
    Applied Physics Letters, 100, 172408 (4 pages) (Apr 2012). doi: 10.1063/1.4705289

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  422. Coercivity enhancement of Nd-La-Ce-Fe-B sintered magnets: Synergistic effects of grain boundary regulation and chemical heterogeneity,
    Hao Chen, Weiqiang Liu, Zizhen Guo, Tianyuan Yang, Haihui Wu, Yuan Qin, Yuqing Li, Hongguo Zhang, and Ming Yue,
    Acta Materialia, 235, 118102 (11 pages) (Aug 2022). doi: 10.1016/j.actamat.2022.118102

  423. Excitation of unidirectional exchange spin waves by a nanoscale magnetic grating,
    Jilei Chen, Tao Yu, Chuanpu Liu, Tao Liu, Marco Madami, Ka Shen, Jianyu Zhang, Sa Tu, Md Shah Alam, Ke Xia, Mingzhong Wu, Gianluca Gubbiotti, Yaroslav M. Blanter, Gerrit E.W. Bauer, and Haiming Yu,
    Physical Review B, 100, 104427 (7 pages) (Sep 2019). doi: 10.1103/PhysRevB.100.104427

  424. Chiral magnonics: Reprogrammable nanoscale spin wave networks based on chiral domain walls,
    Jilei Chen, Junfeng Hu, and Haiming Yu,
    iScience, 23, 101153 (10 pages) (Jun 2020). doi: 10.1016/j.isci.2020.101153

  425. Chiral emission of exchange spin waves by magnetic skyrmions,
    Jilei Chen, Junfeng Hu, and Haiming Yu,
    ACS Nano, 15, 4372-4379 (Mar 2021). doi: 10.1021/acsnano.0c07805

  426. Reconfigurable spin-wave interferometer at the nanoscale,
    Jilei Chen, Hanchen Wang, Tobias Hula, Chuanpu Liu, Song Liu, Tao Liu, Hao Jia, Qiuming Song, Chenyang Guo, Yuelin Zhang, Jinxing Zhang, Xiufeng Han, Dapeng Yu, Mingzhong Wu, Helmut Schultheiss, and Haiming Yu,
    Nano Letters, 21, 6237-6244 (Jul 2021). doi: 10.1021/acs.nanolett.1c02010

  427. Magic-angle magnonic nanocavity in a magnetic moiré superlattice,
    Jilei Chen, Lang Zeng, Hanchen Wang, Marco Madami, Gianluca Gubbiotti, Song Liu, Jianyu Zhang, Zifeng Wang, Wenhao Jiang, Yan Zhang, Dapeng Yu, Jean-Philippe Ansermet, and Haiming Yu,
    Physical Review B, 105, 094445 (10 pages) (Mar 2022). doi: 10.1103/PhysRevB.105.094445

  428. Voltage-induced high-speed DW motion in a synthetic antiferromagnet,
    Lulu Chen, Maokang Shen, Yingying Peng, Xinyu Liu, Wei Luo, Xiaofei Yang, Long You, and Yue Zhang,
    Journal of Physics D: Applied Physics, 52, 495001 (7 pages) (Sep 2019). doi: 10.1088/1361-6463/ab3fc9

  429. Dynamical mode coexistence and chaos in a nanogap spin Hall nano-oscillator,
    Lina Chen, Kaiyuan Zhou, S. Urazhdin, Wencong Jiang, Y.W. Du, and R.H. Liu,
    Physical Review B, 100, 104436 (9 pages) (Sep 2019). doi: 10.1103/PhysRevB.100.104436

  430. Magnetic droplet mode in a vertical nanocontact-based spin Hall nano-oscillator at oblique fields,
    Lina Chen, S. Urazhdin, Kaiyuan Zhou, Y.W. Du, and R.H. Liu,
    Physical Review Applied, 13, 024034 (9 pages) (Feb 2020). doi: 10.1103/PhysRevApplied.13.024034

  431. Collimated bidirectional propagating spin wave generated by a nonlocal spin-current nano-oscillator,
    Lina Chen, Zhenyu Gao, Kaiyuan Zhou, Y.W. Du, and R.H. Liu,
    Physical Review Applied, 16, 034044 (8 pages) (Sep 2021). doi: 10.1103/PhysRevApplied.16.034044

  432. Self-oscillations in a nanogap spin Hall nano-oscillator with a perpendicularly magnetized external film,
    Lina Chen, Kaiyuan Zhou, Zui Tao, Zhenyu Gao, Like Liang, Zishuang Li, and Ronghua Liu,
    Physical Review Applied, 19, 054051 (12 pages) (May 2023). doi: 10.1103/PhysRevApplied.19.054051

  433. Potential modulated multilayer deposition of multisegment Cu/Ni nanowires with tunable magnetic properties,
    Min Chen, Chia-Ling Chien, and Peter C. Searson,
    Chemistry of materials, 18, 1595-1601 (Feb 2006). doi: 10.1021/cm052262b

  434. Effect of Dzyaloshinskii-Moriya interaction on the magnetic vortex oscillator driven by spin-polarized current,
    Shujun Chen, Senfu Zhang, Qiyuan Zhu, Xianyin Liu, Chendong Jin, Jianbo Wang, and Qingfang Liu,
    Journal of Applied Physics, 117, 17B720 (4 pages) (Mar 2015). doi: 10.1063/1.4915476

  435. Magnetic domain wall motion in notch patterned permalloy nanowire devices,
    Ting-Chieh Chen, Cheng-Yi Kuo, Amit K. Mishra, Bipul Das, and Jong-Ching Wu,
    Physica B: Condensed Matter, 476, 161-166 (Nov 2015). doi: 10.1016/j.physb.2015.04.004

  436. Finite size effects on spin-torque driven ferromagnetic resonance in spin valves with a Co/Ni synthetic free layer,
    W. Chen, G. de Loubens, J.-M.L. Beaujour, A.D. Kent, and J.Z. Sun,
    Journal of Applied Physics, 103, 07A502 (3 pages) (Apr 2008). doi: 10.1063/1.2832671

  437. Microwave susceptibility dispersion spectra of nanodot arrays with perpendicular anisotropy,
    W. Chen and M. Han,
    PIERS Online, 6, 101-104 (2010). doi: 10.2529/PIERS090824024047

  438. Regulating the magnetic skyrmion in a confined nanochannel under a gradient magnetic field,
    Wenchao Chen, Zhiwei Tao, Rongzhi Zhao, and Xuefeng Zhang,
    Nanotechnology, 30, 415401 (5 pages) (Jul 2019). doi: 10.1088/1361-6528/ab3145

  439. Magnetic anisotropy and resonance frequency of patterned soft magnetic strips,
    X. Chen, Y.G. Ma, and C.K. Ong,
    Journal of Applied Physics, 104, 013921 (5 pages) (Jul 2008). doi: 10.1063/1.2953065

  440. Control phase shift of spin-wave by spin-polarized current and its application in logic gates,
    Xiangxu Chen, Qi Wang, Yulong Liao, Xiaoli Tang, Huaiwu Zhang, and Zhiyong Zhong,
    Journal of Magnetism and Magnetic Materials, 394, 67-69 (Nov 2015). doi: 10.1016/j.jmmm.2015.06.043

  441. A methodology to design spin-wave-based logic gates in a single ferromagnetic nanostripe using spin-transfer torque effects,
    Xiangxu Chen, Qi Wang, Feiming Bai, Xiaoli Tang, Huaiwu Zhang, and Zhiyong Zhong,
    IEEE Transactions on Magnetics, 52, 1400104 (4 pages) (Jul 2016). doi: 10.1109/TMAG.2016.2524637

  442. Skyrmion dynamics in width-varying nanotracks and implications for skyrmionic applications,
    Xing Chen, Wang Kang, Daoqian Zhu, Xichao Zhang, Na Lei, Youguang Zhang, Yan Zhou, and Weisheng Zhao,
    Applied Physics Letters, 111, 202406 (5 pages) (Nov 2017). doi: 10.1063/1.5005953

  443. A compact skyrmionic leaky-integrate-fire spiking neuron device,
    Xing Chen, Wang Kang, Daoqian Zhu, Xichao Zhang, Na Lei, Youguang Zhang, Yan Zhou, and Weisheng Zhao,
    Nanoscale, 10, 6139-6146 (Mar 2018). doi: 10.1039/C7NR09722K

  444. Complementary skyrmion racetrack memory enables voltage-controlled local data update functionality,
    Xing Chen, Wang Kang, Daoqian Zhu, Xichao Zhang, Na Lei, Youguang Zhang, Yan Zhou, and Weisheng Zhao,
    IEEE Transactions on Electron Devices, 65, 4667-4673 (Oct 2018). doi: 10.1109/TED.2018.2866912

  445. Micromagnetic simulation of spin torque ferromagnetic resonance in nano-ring-shape confined magnetic tunnel junctions,
    Xing Chen, Jianying Qin, Tian Yu, Xiu-Feng Han, and Yaowen Liu,
    Applied Physics Letters, 113, 142406 (5 pages) (Oct 2018). doi: 10.1063/1.5042447

  446. Sky-RAM: Skyrmionic random access memory,
    Xing Chen, Haoyang Zhang, Erya Deng, Mingchang Yang, Na Lei, Youguang Zhang, Wang Kang, and Weisheng Zhao,
    IEEE Electron Device Letters, 40, 722-725 (May 2019). doi: 10.1109/LED.2019.2905425

  447. General nature of the step-induced frustration at ferromagnetic/antiferromagnetic interfaces: Topological origin and quantitative understanding,
    X. Chen, T.Z. Ji, L. Sun, B.F. Miao, Y.T. Millev, and H.F. Ding,
    New Journal of Physics, 21, 123045 (13 pages) (Dec 2019). doi: 10.1088/1367-2630/ab5cbd

  448. Ferromagnetic resonance modes of a synthetic antiferromagnet at low magnetic fields,
    Xing Chen, Cuixiu Zheng, Sai Zhou, Yaowen Liu, and Zongzhi Zhang,
    Journal of Physics: Condensed Matter, 34, 015802 (8 pages) (Oct 2021). doi: 10.1088/1361-648x/ac2a79

  449. Identification and manipulation of spin wave polarizations in perpendicularly magnetized synthetic antiferromagnets,
    Xing Chen, Cuixiu Zheng, Yu Zhang, Sai Zhou, Yaowen Liu, and Zongzhi Zhang,
    New Journal of Physics, 23, 113029 (10 pages) (Nov 2021). doi: 10.1088/1367-2630/ac3556

  450. Dynamics of high-velocity domain wall motion and spin wave excitation in trilayer structures,
    Xingtai Chen, Thomas J. Hayward, Wenqing Liu, and Matthew T. Bryan,
    Journal of Applied Physics, 130, 223901 (6 pages) (Dec 2021). doi: 10.1063/5.0069015

  451. Manipulation of time-and frequency-domain dynamics by magnon-magnon coupling in synthetic antiferromagnets,
    Xing Chen, Cuixiu Zheng, Sai Zhou, Yaowen Liu, and Zongzhi Zhang,
    Magnetochemistry, 8, 7 (10 pages) (Jan 2022). doi: 10.3390/magnetochemistry8010007

  452. Nanoimprint fabrication of micro-rings for magnetization reversal studies,
    Y. Chen, A. Lebib, S.P. Li, M. Natali, D. Peyrade, and E. Cambril,
    Microelectronic Engineering, 57-58, 405-410 (Sep 2001). doi: 10.1016/S0167-9317(01)00448-8

  453. Nonlinear gyrotropic motion of skyrmion in a magnetic nanodisk,
    Yi-fu Chen, Zhi-xiong Li, Zhen-wei Zhou, Qing-lin Xia, Yao-zhuang Nie, and Guang-hua Guo,
    Journal of Magnetism and Magnetic Materials, 458, 123-128 (Jul 2018). doi: 10.1016/j.jmmm.2018.03.016

  454. Electric readout of magnetic stripes in insulators,
    Yao Chen, Yuki Shiomi, Zhiyong Qiu, Tomohiko Niizeki, Maki Umeda, and Eiji Saitoh,
    Scientific Reports, 9, 19052 (8 pages) (Dec 2019). doi: 10.1038/s41598-019-55565-1

  455. Proposal of global strain clocking scheme for majority logic gate,
    Yabo Chen, Xiaokuo Yang, Bo Wei, Huanqing Cui, and Mingxu Song,
    IEEE Access, 8, 77802-77810 (Apr 2020). doi: 10.1109/ACCESS.2020.2989930

  456. Effect of nanomagnet geometry on reliability of energy-efficient straintronic spin neuron and memory: A size-dependent study,
    Yabo Chen, Mingxu Song, Bo Wei, Xiaokuo Yang, Huanqing Cui, Jiahao Liu, and Cheng Li,
    IEEE Magnetics Letters, 11, 4504505 (5 pages) (Aug 2020). doi: 10.1109/LMAG.2020.3017180

  457. Magneto-ionic suppression of magnetic vortices,
    Yu Chen, Aliona Nicolenco, Pau Molet, Agustin Mihi, Eva Pellicer, and Jordi Sort,
    Science and Technology of Advanced Materials, 22, 972-984 (Nov 2021). doi: 10.1080/14686996.2021.1988830

  458. Optimizing magnetic heating of isolated magnetic nanowires (MNWs) by simulation,
    Yicong Chen, Allison Harpel, and Bethanie J. Hills Stadler,
    AIP Advances, 12, 035007 (5 pages) (Mar 2022). doi: 10.1063/9.0000335

  459. Predictions of optimal heating by magnetic reversal behavior of magnetic nanowires (MNWs) with different materials,
    Yicong Chen and Bethanie J.H. Stadler,
    International Journal of Hyperthermia, 40, 2223371 (7 pages) (Jun 2023). doi: 10.1080/02656736.2023.2223371

  460. Ferromagnetic resonance frequency and spin wave mode of asymmetric strip nanomagnet,
    Ya-Bo Chen, Xiao-Kuo Yang, Bo Wei, Tong Wu, Jia-Hao Liu, Ming-Liang Zhang, Huan-Qing Cui, Dan-Na Dong, and Li Cai,
    Acta Physica Sinica, 69, 057501 (8 pages) (Mar 2020). doi: 10.7498/aps.69.20191622

  461. Quantitative analysis of magnetization reversal in submicron S-patterned structures with narrow constrictions by magnetic force microscopy,
    Y.C. Chen, Y.D. Yao, S.F. Lee, Y. Liou, J.L. Tsai, and Y.A. Lin,
    Applied Physics Letters, 86, 053111 (3 pages) (Jan 2005). doi: 10.1063/1.1853491

  462. Current-assisted magnetization switching in submicron permalloy S-shape wires with narrow junctions,
    Y.C. Chen, Y.A. Lin, D.C. Chen, Y.D. Yao, S.F. Lee, and Y. Liou,
    Journal of Applied Physics, 97, 10J703 (3 pages) (May 2005). doi: 10.1063/1.1850254

  463. Current detection of vortex motion in patterned S-shape wires with constrictions,
    Yi-Chun Chen, Yeong-Der Yao, Shang-Fan Lee, Yu-An Lin, Dong-Cheng Chen, and Yung Liou,
    Journal of Applied Physics, 99, 08G306 (3 pages) (Apr 2006). doi: 10.1063/1.2166591

  464. The magnetic Y-branch nanojunction: Domain-wall structure and magneto-resistance,
    Z. Chen, T.-Y. Lin, X. Wei, M. Matsunaga, T. Doi, Y. Ochiai, N. Aoki, and J.P. Bird,
    Applied Physics Letters, 101, 102403 (5 pages) (Sep 2012). doi: 10.1063/1.4750240

  465. Magnetic structure and interaction of nickel nanowires studied by electron holography and micromagnetic simulation,
    Zixuan Chen, Lizhen Zhen, Jiwei Zhang, Peipei Lu, Qin Xu, Lihu Liu, and Huiyuan Sun,
    Materials Science and Engineering: B, 290, 116316 (5 pages) (Apr 2023). doi: 10.1016/j.mseb.2023.116316

  466. Magnetization reversal process of tri-layer readers for ultrahigh density data storage,
    J.W. Chenchen, S.Y.H. Lua, and H. Guchang,
    IEEE Transactions on Magnetics, 46, 1385-1388 (Jun 2010). doi: 10.1109/TMAG.2010.2042686

  467. RC-circuit-like dynamic characteristic of the magnetic domain wall in flat ferromagnetic nanowires,
    Chen Cheng, Piao Hong-Guang, Shim Je-Ho, Pan Li-Qing, and Kim Dong-Hyun,
    Chinese Physics Letters, 32, 087502 (5 pages) (2015). doi: 10.1088/0256-307X/32/8/087502

  468. Preparation and magnetic properties of CoFe2O4 oriented fiber arrays by electrospinning,
    Chen Cheng, Jianfeng Dai, Zengpeng Li, and Wei Feng,
    Materials, 13, 3860 (11 pages) (Jan 2020). doi: 10.3390/ma13173860

  469. Stray field and combined effects on device miniaturization of the magnetic tunnel junctions,
    Chih-Wei Cheng, Kuan-Ming Chen, Jeng-Hua Wei, Yu-Chen Hsin, Shyh-Shyuan Sheu, Chih-I Wu, and Yuan-Chieh Tseng,
    Journal of Physics D: Applied Physics, 55, 195002 (9 pages) (Feb 2022). doi: 10.1088/1361-6463/ac5147

  470. Magnetic nanostructures from block copolymer lithography: Hysteresis, thermal stability, and magnetoresistance,
    J.Y. Cheng, W. Jung, and C.A. Ross,
    Physical Review B, 70, 064417 (9 pages) (Aug 2004). doi: 10.1103/PhysRevB.70.064417

  471. Current-driven domain wall in giant magnetoresistance half-ring series wires with varied linewidth,
    K.W. Cheng, C. Yu, S.F. Lee, Y.D. Yao, Y. Liou, and J.H. Huang,
    Journal of Applied Physics, 105, 07D115 (3 pages) (Feb 2009). doi: 10.1063/1.3068134

  472. 3-Terminal pMTJ reduces critical current and switching time,
    Lanting Cheng, Sakhrat Khizroev, and Ping Liang,
    Journal of Magnetism and Magnetic Materials, 358, 5-10 (May 2014). doi: 10.1016/j.jmmm.2014.01.007

  473. Regulating a novel domain wall oscillator with a steady frequency by changing the current density,
    M. Cheng, X. Yuan, S. Li, C. Chen, Z. Zhang, Z. Yu, Y. Liu, Z. Lu, and R. Xiong,
    Nanotechnology, 31, 235201 (8 pages) (Mar 2020). doi: 10.1088/1361-6528/ab7676

  474. The domain formation in Fe/Ni/Fe nanoscale magnetic antidot arrays,
    R. Cheng, A. Rosenberg, D.N. McIlroy, Z. Holman, D. Zhang, and Y. Kranov,
    Journal of Applied Physics, 111, 063902 (5 pages) (Mar 2012). doi: 10.1063/1.3694011

  475. Reversible exchange bias and uncompensated magnetization in FexNi1-xF2/Co bilayers,
    M. Cheon, Z. Liu, and D. Lederman,
    Applied Physics Letters, 90, 012511 (3 pages) (Jan 2007). doi: 10.1063/1.2429997

  476. Micromagnetics of spin-flop bilayers: S, C, and vortex spin states,
    S.S. Cherepov, A. Konovalenko, V. Korenivski, and D.C. Worledge,
    IEEE Transactions on Magnetics, 46, 2124-2127 (Jun 2010). doi: 10.1109/TMAG.2010.2043716

  477. Resonant switching of two dipole-coupled nanomagnets,
    S.S. Cherepov, V. Korenivski, and D.C. Worledge,
    IEEE Transactions on Magnetics, 46, 2112-2115 (Jun 2010). doi: 10.1109/TMAG.2010.2043715

  478. Brillouin light scattering study of magnetic dots,
    S.-M. Chérif, S.-Y. Roussigné, and P. Moch,
    physica status solidi (c), 1, 1591-1594 (Mar 2004). doi: 10.1002/pssc.200304437

  479. Magnetic properties of submicrometric antidot arrays in cobalt films,
    S.-M. Chérif, Y. Roussigné, and P. Moch,
    physica status solidi (c), 3, 3249-3252 (Sep 2006). doi: 10.1002/pssc.200567047

  480. Computing the demagnetizing tensor for finite difference micromagnetic simulations via numerical integration,
    Dmitri Chernyshenko and Hans Fangohr,
    Journal of Magnetism and Magnetic Materials, 381, 440-445 (May 2015). doi: 10.1016/j.jmmm.2015.01.013

  481. L-shaped electrode design for high-density spin-orbit torque magnetic random access memory with perpendicular shape anisotropy,
    Kequn Chi, Yinuo Shi, Zhou Li, Wenbiao Zhang, Yun Xing, Xiang Feng, Yungui Ma, Hao Meng, and Bo Liu,
    Journal of Physics D: Applied Physics, 54, 285002 (8 pages) (May 2021). doi: 10.1088/1361-6463/abf61d

  482. Nanoscale spin wave localization using ferromagnetic resonance force microscopy,
    H.-J. Chia, F. Guo, L.M. Belova, and R.D. McMichael,
    Physical Review Letters, 108, 087206 (5 pages) (Feb 2012). doi: 10.1103/PhysRevLett.108.087206

  483. Spectroscopic defect imaging in magnetic nanostructure arrays,
    H.-J. Chia, F. Guo, L.M. Belova, and R.D. McMichael,
    Applied Physics Letters, 101, 042408 (4 pages) (Jul 2012). doi: 10.1063/1.4738789

  484. Two-dimensional spectroscopic imaging of individual ferromagnetic nanostripes,
    Han-Jong Chia, Feng Guo, Liubov M. Belova, and R.D. McMichael,
    Physical Review B, 86, 184406 (7 pages) (Nov 2012). doi: 10.1103/PhysRevB.86.184406

  485. Demonstration of edge roughness effect on the magnetization reversal of spin valve submicron wires,
    T.W. Chiang, L.J. Chang, C. Yu, S.Y. Huang, D.C. Chen, Y.D. Yao, and S.F. Lee,
    Applied Physics Letters, 97, 022109 (3 pages) (Jul 2010). doi: 10.1063/1.3463459

  486. Vertical shift register using dipolar interaction in magnetic multilayers,
    Shin-Liang Chin, Amalio Fernández-Pacheco, Dorothée C.M.C. Petit, and Russell P. Cowburn,
    Journal of Applied Physics, 118, 233905 (6 pages) (Dec 2015). doi: 10.1063/1.4937915

  487. Study of spin dynamics and damping on the magnetic nanowire arrays with various nanowire widths,
    Jaehun Cho, Yuya Fujii, Katsunori Konioshi, Jungbum Yoon, Nam-Hui Kim, Jinyong Jung, Shinji Miwa, Myung-Hwa Jung, Yoshishige Suzuki, and Chun-Yeol You,
    Journal of Magnetism and Magnetic Materials, 409, 99-103 (Jul 2016). doi: 10.1016/j.jmmm.2016.02.090

  488. Spin-wave eigenmodes in single disk-shaped FeB nanomagnet,
    Jaehun Cho, Shinji Miwa, Kay Yakushiji, Shingo Tamaru, Hitoshi Kubota, Akio Fukushima, Satoshi Fujimoto, Eiiti Tamura, Chun-Yeol You, Shinji Yuasa, and Yoshishige Suzuki,
    Physical Review B, 94, 184411 (7 pages) (Nov 2016). doi: 10.1103/PhysRevB.94.184411

  489. Effect of electric field on the exchange-stiffness constant in a Co12Fe72B16 disk-shaped nanomagnet 65 nm in diameter,
    Jaehun Cho, Shinji Miwa, Kay Yakushiji, Hitoshi Kubota, Akio Fukushima, Chun-Yeol You, Shinji Yuasa, and Yoshishige Suzuki,
    Physical Review Applied, 10, 014033 (6 pages) (Jul 2018). doi: 10.1103/PhysRevApplied.10.014033

  490. Non-equilibrium chiral domain wall dynamics excited by transverse magnetic field pulses,
    Jaehun Cho, Kyoung-Whan Kim, Myoung-Jae Lee, Hyeon-Jun Lee, and June-Seo Kim,
    Journal of Physics: Condensed Matter, 33, 015803 (7 pages) (Oct 2020). doi: 10.1088/1361-648x/abb64f

  491. Utilizing valley-spin Hall effect in monolayer WSe2 for designing low power nonvolatile spintronic devices and flip-flops,
    Karam Cho, Xiangkai Liu, Zhihong Chen, and Sumeet Kumar Gupta,
    IEEE Transactions on Electron Devices, 69, 1667-1676 (Apr 2022). doi: 10.1109/TED.2021.3135475

  492. Valley-spin Hall effect-based nonvolatile memory with exchange-coupling-enabled electrical isolation of read and write paths,
    Karam Cho and Sumeet Kumar Gupta,
    IEEE Journal on Exploratory Solid-State Computational Devices and Circuits, 8, 157-165 (Nov 2022). doi: 10.1109/JXCDC.2022.3224832

  493. Depinning field from notches on Co/Pd multilayer nanowires with perpendicular magnetic anisotropy,
    Sug-Bong Choe,
    physica status solidi (c), 4, 4433-4436 (Dec 2007). doi: 10.1002/pssc.200777379

  494. Unique depinning fields at symmetric double notches in a ferromagnetic permalloy nanowire,
    Sug-Bong Choe,
    Journal of Magnetism and Magnetic Materials, 320, 1112-1114 (Mar 2008). doi: 10.1016/j.jmmm.2007.10.023

  495. Micromagnetic domain structures and magnetization switching mechanism in submicrometer thin-film elements,
    B.C. Choi, B.R. Pujada, Y.K. Hong, M.H. Park, H. Han, S.H. Gee, and G.W. Donohoe,
    IEEE Transactions on Magnetics, 41, 3109-3111 (Oct 2005). doi: 10.1109/TMAG.2005.854891

  496. Numerical simulation study of magnetization precession dynamics in submicrometer elliptical Ni80Fe20 thin-film elements,
    B.C. Choi, Q.F. Xiao, Y.K. Hong, S.H. Gee, J. Jabal, H. Han, K.J. Hass, and G.W. Donohoe,
    IEEE Transactions on Magnetics, 42, 3216-3218 (Oct 2006). doi: 10.1109/TMAG.2006.880105

  497. Vortex core switching dynamics in submicron permalloy disk,
    B.C. Choi, Q.F. Xiao, Y.K. Hong, J. Rudge, and G. Donohoe,
    IEEE Transactions on Magnetics, 43, 2926-2928 (Jun 2007). doi: 10.1109/TMAG.2007.892332

  498. Spin-wave interference,
    Sangkook Choi, Ki-Suk Lee, and Sang-Koog Kim,
    Applied Physics Letters, 89, 062501 (3 pages) (Aug 2006). doi: 10.1063/1.2259813

  499. Double-contact spin-torque nano-oscillator with optimized spin-wave coupling: Micromagnetic modeling,
    S. Choi, S.K. Kim, V.E. Demidov, and S.O. Demokritov,
    Applied Physics Letters, 90, 083114 (3 pages) (Feb 2007). doi: 10.1063/1.2696256

  500. Strong radiation of spin waves by core reversal of a magnetic vortex and their wave behaviors in magnetic nanowire waveguides,
    S. Choi, K.S. Lee, K.Y. Guslienko, and S.K. Kim,
    Physical Review Letters, 98, 87205 (4 pages) (Feb 2007). doi: 10.1103/PhysRevLett.98.087205

  501. Measurement of local magnetization in the buried layer of a pseudo-spin-valve submicron wire,
    Y. Choi, D. Haskel, D.R. Lee, J.C. Lang, G. Srajer, and J.S. Im,
    Journal of Applied Physics, 95, 7028-7030 (Jun 2004). doi: 10.1063/1.1667798

  502. Critical nucleation size of vortex core for domain wall transformation in soft magnetic thin film nanostrips,
    Y.-S. Choi, J.-Y. Lee, M.-W. Yoo, K.-S. Lee, K.Y. Guslienko, and S.-K. Kim,
    Physical Review B, 80, 12402 (4 pages) (Jul 2009). doi: 10.1103/PhysRevB.80.012402

  503. Out-of-plane current controlled switching of the fourfold degenerate state of a magnetic vortex in soft magnetic nanodots,
    Youn-Seok Choi, Myoung-Woo Yoo, Ki-Suk Lee, Young-Sang Yu, Hyunsung Jung, and Sang-Koog Kim,
    Applied Physics Letters, 96, 072507 (3 pages) (Feb 2010). doi: 10.1063/1.3310017

  504. Direct observation of the vortex core magnetization and its dynamics,
    K.W. Chou, A. Puzic, H. Stoll, D. Dolgos, G. Schütz, B. Van Waeyenberge, A. Vansteenkiste, T. Tyliszczak, G. Woltersdorf, and C.H. Back,
    Applied Physics Letters, 90, 202505 (3 pages) (May 2007). doi: 10.1063/1.2738186

  505. Shape- and interface-induced control of spin dynamics of two-dimensional bicomponent magnonic crystals,
    Samiran Choudhury, Susmita Saha, Ruma Mandal, Saswati Barman, YoshiChika Otani, and Anjan Barman,
    ACS Applied Materials and Interfaces, 8, 18339-18346 (Jun 2016). doi: 10.1021/acsami.6b04011

  506. Efficient modulation of spin waves in two-dimensional octagonal magnonic crystal,
    Samiran Choudhury, Saswati Barman, YoshiChika Otani, and Anjan Barman,
    ACS nano, 11, 8814-8821 (Aug 2017). doi: 10.1021/acsnano.7b02872

  507. Active control of mode crossover and mode hopping of spin waves in a ferromagnetic antidot lattice,
    Samiran Choudhury, Sudip Majumder, Saswati Barman, YoshiChika Otani, and Anjan Barman,
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  508. Controlled evolution of spin waves in unconventional defective honeycomb antidot lattices,
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  546. Proposal for a micromagnetic standard problem for materials with Dzyaloshinskii-Moriya interaction,
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  586. Stress tunable magnetic stripe domains in flexible Fe81Ga19 films,
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  596. Micromagnetics simulation of nanoshaped iron elements: Comparison with experiment,
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  597. Micromagnetics simulation of deep-submicron supermalloy disks,
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  598. Micromagnetics simulation of asymmetric pseudo-spin valve dots,
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  599. Magnetization reversal of elliptical Co/Cu/Co pseudo-spin valve dots,
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  600. Switching mechanism in ring-shaped pseudospin valves,
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    IEEE Transactions on Magnetics, 39, 2525-2527 (Sep 2003). doi: 10.1109/TMAG.2003.816464

  601. Dynamic susceptibility of nanopillars,
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  602. Chiral domain wall injector driven by spin-orbit torques,
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    Nano Letters, 19, 5930-5937 (Aug 2019). doi: 10.1021/acs.nanolett.9b01504

  603. Skyrmion based spin-torque nano-oscillator,
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  604. Self-reset schemes for magnetic domain wall-based neuron,
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    IEEE Journal on Exploratory Solid-State Computational Devices and Circuits, 8, 166-172 (Dec 2022). doi: 10.1109/JXCDC.2022.3227774

  605. Bilayer-skyrmion-based design of neuron and synapse for spiking neural network,
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  606. MRAM PUF: A novel geometry based magnetic PUF with integrated CMOS,
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    IEEE Transactions on Nanotechnology, 14, 436 (8 pages) (May 2015). doi: 10.1109/TNANO.2015.2397951

  607. MRAM PUF: Using geometric and resistive variations in MRAM cells,
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  608. Magnetization dynamics of a CrO2 grain studied by micro-Hall magnetometry,
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  609. Quantum statistics of vortices from a dual theory of the XY ferromagnet,
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  610. Device geometry dependent deterministic skyrmion generation from a skyrmionium,
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  611. Reducing disorder in artificial kagome ice,
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  612. Micromagnetic study of iron nanowire arrays,
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  613. Graded-index magnonics,
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  614. Generation of propagating spin waves from regions of increased dynamic demagnetising field near magnetic antidots,
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  615. Field-controlled phase-rectified magnonic multiplexer,
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  616. Generation of propagating spin waves from edges of magnetic nanostructures pumped by uniform microwave magnetic field,
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    IEEE Transactions on Magnetics, 52, 2300504 (4 pages) (Jul 2016). doi: 10.1109/TMAG.2016.2517000

  617. Mapping the magnonic landscape in patterned magnetic structures,
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  618. Frustration driven stripe domain formation in Co/Pt multilayer films,
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  619. Magnetization reversal in the single epitaxial Co(111) nanowires with step-induced anisotropy,
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  620. Mechanism of reversing the Neel domain walls in the Co nanostripes with transverse magnetic anisotropy,
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  621. Spatial modulation of in-plane magnetic anisotropy in epitaxial Co(111) films grown on macrostep-bunched Si(111),
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  622. Néel coupling in Co/Cu/Co stripes with unidirectional interface roughness,
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  623. Investigation of magnetization dynamics in 2D Ni80Fe20 diatomic nanodot arrays,
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  624. Field-controlled ultrafast magnetization dynamics in two-dimensional nanoscale ferromagnetic antidot arrays,
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  625. Shape dependent high frequency spin-wave dynamics in nanoscale magnonic crystals,
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  626. Anisotropic spin-wave dispersion in two-dimensional Ni80Fe20 diatomic nanodot array,
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  627. Magnonic crystals with complex geometry,
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  628. Resonant amplification of intrinsic magnon modes and generation of new extrinsic modes in a two-dimensional array of interacting multiferroic nanomagnets by surface acoustic waves,
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  629. Gaussian random number generator with reconfigurable mean and variance using stochastic magnetic tunnel junctions,
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  630. Defect modeling in skyrmionic ferromagnetic systems,
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  631. Domain wall collision-induced spin waves,
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  632. Nonlinear scattering in nanoscale magnetic elements: Overpopulation of the lowest-frequency magnon state,
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  633. Generation of the second harmonic by spin waves propagating in microscopic stripes,
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  634. Resonant frequency multiplication in microscopic magnetic dots,
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  635. Excitation of short-wavelength spin waves in magnonic waveguides,
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  636. Nanoconstriction-based spin-Hall nano-oscillator,
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  637. Dipolar field-induced spin-wave waveguides for spin-torque magnonics,
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  638. Magnonic waveguides studied by microfocus Brillouin light scattering,
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  639. Magnetization oscillations and waves driven by pure spin currents,
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  640. Electrical determination of relative chirality direction in a Co/Cu/Co ferromagnetic ring,
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  641. Chirality determination of ferromagnetic disk by local Hall effect,
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  642. Optimization of domain wall oscillations in magnetic nanowires,
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  643. Magnetic properties of Co/Cu/Py antidot films with different pore diameters,
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  644. Discussing the high frequency intrinsic permeability of nanostructures using first order reversal curves,
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  645. Modulation of magnonic bands of dipole-exchange spin waves in fishbone-like yttrium iron garnet nanostrip magnonic crystal waveguides,
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  646. Magnetic properties of 3d metal rods with composition gradients produced by electroless deposition,
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  647. The defining length scales of mesomagnetism: A review,
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  648. Internal magnetic structure of nanoparticles dominates time-dependent relaxation processes in a magnetic field,
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  649. Realization of ordered magnetic skyrmions in thin films at ambient conditions,
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  650. Analog and digital deformable diffractive optics actuated by inter-nanomagnet forces,
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  652. Magnetization reversal behavior in electrodeposited Fe-Co-Ni thin films,
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  653. Weak coercivity dispersion in magnetic nanostructures fabricated by ion irradiation,
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    IEEE Transactions on Magnetics, 38, 2547-2549 (Sep 2002). doi: 10.1109/TMAG.2002.801930

  654. Spectral analysis of the precessional switching of the magnetization in an isotropic thin film,
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  655. Switching behavior of sharply pointed nanomagnets for logic applications,
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    IEEE Transactions on Magnetics, 49, 3549-3552 (Jul 2013). doi: 10.1109/TMAG.2012.2237020

  656. Shape-dependent switching behavior of exchange-coupled nanomagnet stacks,
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  657. Exchange coupling between laterally adjacent nanomagnets,
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  658. Study of switching behavior of exchange-coupled nanomagnets by transverse magnetization metrology,
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  659. Linear second-order IMEX-type integrator for the (eddy current) Landau-Lifshitz-Gilbert equation,
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  660. Tuning the band structures of a one-dimensional width-modulated magnonic crystal by a transverse magnetic field,
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  661. Band structure of magnonic crystals with defects: Brillouin spectroscopy and micromagnetic simulations,
    Kai Di, Vanessa Li Zhang, Meng Hau Kuok, Hock Siah Lim, Ser Choon Ng, Kulothungasagaran Narayanapillai, and Hyunsoo Yang,
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  662. Asymmetric spin-wave dispersion due to Dzyaloshinskii-Moriya interaction in an ultrathin Pt/CoFeB film,
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  663. Vortex states in soft magnets in two and three dimensions,
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  664. Shape tailored magnetic nanorings for intracellular hyperthermia cancer therapy,
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  665. Influence of perpendicular magnetic fields on the domain structure of permalloy microstructures grown on thin membranes,
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  666. Fabrication and characterization of sub-µm magnetic cells for embedded front-end MRAM,
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  667. Vortex domain wall formation in nanowires with twin pinning sites,
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    IEEE Transactions on Magnetics, 48, 2304-2306 (Aug 2012). doi: 10.1109/TMAG.2012.2191974

  668. Manipulating spin chirality of magnetic skyrmion bubbles by in-plane reversed magnetic fields in (Mn1-xNix)65Ga35 (x=0.45) magnet,
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    Physical Review Applied, 12, 054060 (8 pages) (Nov 2019). doi: 10.1103/PhysRevApplied.12.054060

  669. Tuning the density of zero-field skyrmions and imaging the spin configuration in a two-dimensional Fe3GeTe2 magnet,
    Bei Ding, Xue Li, Zefang Li, Xuekui Xi, Yuan Yao, and Wenhong Wang,
    NPG Asia Materials, 14, 74 (8 pages) (Sep 2022). doi: 10.1038/s41427-022-00418-z

  670. Magnetic bistability of Co nanodots,
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  671. Manipulating current induced motion of magnetic skyrmions in the magnetic nanotrack,
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  672. The motion of magnetic skyrmions driven by propagating spin waves,
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    IEEE Transactions on Magnetics, 51, 1500504 (4 pages) (Nov 2015). doi: 10.1109/TMAG.2015.2446516

  673. Performance and energy impact of locally controlled NML circuits,
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    ACM Journal on Emerging Technologies in Computing Systems (JETC), 7, 2 (24 pages) (Jan 2011). doi: 10.1145/1899390.1899392

  674. Synthesis and magnetic properties of bulk α″-Fe16N2/SrAl2Fe10O19 composite magnets,
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  675. Connecting the timescales in picosecond remagnetization experiments,
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    Physical Review B, 75, 12404 (4 pages) (Jan 2007). doi: 10.1103/PhysRevB.75.012404

  676. Magnetic domain wall collision around the Walker breakdown in ferromagnetic nanowires,
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  677. Spontaneous domain wall motion at zero external magnetic field in ferromagnetic nanowire,
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    IEEE Transactions on Magnetics, 46, 217-219 (Feb 2010). doi: 10.1109/TMAG.2009.2032139

  678. Asymmetric ground state spin configuration of transverse domain wall on symmetrically notched ferromagnetic nanowires,
    Dede Djuhana, Hong-Guang Piao, Sang-Hyuk Lee, Dong-Hyun Kim, Sung-Min Ahn, and Sug-Bong Choe,
    Applied Physics Letters, 97, 022511 (3 pages) (Jul 2010). doi: 10.1063/1.3459965

  679. Interaction of antiparallel transverse domain walls in ferromagnetic nanowires,
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  680. Oscillatory transformative domain wall inner structure of the depinning domain wall around a notched ferromagnetic wire,
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  681. Micromagnetic study on the dynamic susceptibility spectra of square-patterned ferromagnets,
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  683. Micromagnetic calculation of the dynamic susceptibility spectra in LSMO (La0.7Sr0.3MnO3) ferromagnetic nanopillars,
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  684. Micromagnetic study of domain wall depinning driven by nanosecond current pulse in notched Permalloy nanowires,
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  685. Micromagnetic studies of the domain structure of BaFe12O19 cubes in zero magnetic field,
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  715. Transitions between segments of C- and S-shaped domain walls in magnetically uniaxial and triaxial films,
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  716. Ferromagnetic resonance and resonance modes in kagome lattices: From an open to a closed kagome structure,
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  718. Micromagnetic simulation of propagation of spin waves in in-plane magnetized crosses based on ferrite microwaveguides of different width,
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  719. Micromagnetic modeling of self-focusing effect of backward volume magnetostatic waves in iron-yttrium garnet films,
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  720. Atomic structure and domain wall pinning in samarium-cobalt-based permanent magnets,
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  721. Micromagnetic simulations of magnetoelastic spin wave excitation in scaled magnetic waveguides,
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  726. Interfacial roughness driven manipulation of magnetic anisotropy and coercivity in ultrathin thulium iron garnet films,
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  728. Dynamic configurational anisotropy in Ni80Fe20 antidot lattice with complex geometry,
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  729. SPICE circuit modeling of PMA spin wave bus excited using magnetoelectric effect,
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  747. Kinetics of the magnetization reversal in permalloy-niobium microstrips under the effect of a pulsed magnetic field and an electric current,
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  748. Influence of shape and dimension on magnetic anisotropies and magnetization reversal of Py, Fe, and Co nano-objects with four-fold symmetry,
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  766. Control of sensitivity in vortex-type magnetic tunnel junction magnetometer sensors by the pinned layer geometry,
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  768. Effect of geometrical modulation on pMTJ magnetization reversal,
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  769. The nature of charged zig-zag domains in MnAs thin films,
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  770. Micromagnetic analysis of unusual, V-shaped domain transitions in MnAs nanowires,
    R. Engel-Herbert and T. Hesjedal,
    Journal of Magnetism and Magnetic Materials, 323, 1840-1845 (Jul 2011). doi: 10.1016/j.jmmm.2011.02.009

  771. Pinning of domain walls in two-layer ferromagnetic nanowire with scattering fields of nanoparticles,
    O.L. Ermolaeva and V.L. Mironov,
    Physics of the Solid State, 59, 2183-2188 (Nov 2017). doi: 10.1134/S1063783417110099

  772. Domain wall nucleation in ferromagnetic nanowire with perpendicular magnetization stimulated by stray field of V-shaped magnetic particle,
    O.L. Ermolaeva and V.L. Mironov,
    IEEE Transactions on Magnetics, 54, 2300408 (8 pages) (Apr 2018). doi: 10.1109/TMAG.2017.2785781

  773. Magnetic force microscopy study of the effect of stresses on the magnetic state of Ni particles,
    O.L. Ermolaeva, N.S. Gusev, E.V. Skorokhodov, V.V. Rogov, and O.G. Udalov,
    Physics of the Solid State, 61, 1572-1576 (Sep 2019). doi: 10.1134/S1063783419090051

  774. Phase diagrams of magnetic nanotubes,
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    Journal of Magnetism and Magnetic Materials, 308, 233-237 (Jan 2007). doi: 10.1016/j.jmmm.2006.05.019

  775. Current-driven vortex domain wall motion in wire-tube nanostructures,
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    Applied Physics Letters, 106, 132405 (4 pages) (Mar 2015). doi: 10.1063/1.4916666

  776. Magnetic and electrical characterization of nickel-rich NiFe thin films synthesized by atomic layer deposition and subsequent thermal reduction,
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    Nanotechnology, 27, 345707 (11 pages) (Jul 2016). doi: 10.1088/0957-4484/27/34/345707

  777. Nanometric alternating magnetic field generator,
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  778. Proton irradiation effects and magnetic order in carbon structures,
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  779. Magnetic dipole and higher pole interaction on a square lattice,
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  780. Domain formation in rectangular magnetic nanoparticle assemblies,
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  781. Spin wave electromagnetic nano-antenna enabled by tripartite phonon-magnon-photon coupling,
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  782. Local control of magnetic anisotropy in transcritical permalloy thin films using ferroelectric BaTiO3 domains,
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  783. Investigation of dynamic magnetization in FePt and FePd disk ferromagnets using micromagnetic simulation,
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  784. Hysteresis loops observation of FePt and FePd square ferromagnets using micromagnetic simulation,
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  785. Propagation of spin waves excited in a Permalloy film by a finite-ground coplanar waveguide: A combined phase-sensitive micro-focused Brillouin light scattering and micromagnetic study,
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  786. Design and synthesis of ultra low energy spin-memristor threshold logic,
    Deliang Fan, Mrigank Sharad, and Kaushik Roy,
    IEEE Transactions on Nanotechnology, 13, 574-583 (May 2014). doi: 10.1109/TNANO.2014.2312177

  787. Magnetic energy-based understanding the mechanism of magnetothermal anisotropy for macroscopically continuous film of assembled Fe3O4 nanoparticles,
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  788. Rotating magnetic field-controlled fabrication of magnetic hydrogel with spatially disk-like microstructures,
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  789. Field-free spin-orbit torque switching in synthetic ferro and antiferromagents with exchange field gradient,
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    Advanced Functional Materials, 33, 202211953 (12 pages) (Feb 2023). doi: 10.1002/adfm.202211953

  790. Magnetic properties and magnetic reversal process of exchange-coupled Nd2Fe14B/α″-Fe16N2 bilayers,
    Jiuping Fan, Ruiyan Liang, Yuhao Bai, Yang Yang, Juan Sun, Yannan Jiang, Fang Wang, and Xiaohong Xu,
    Journal of Applied Physics, 119, 233902 (6 pages) (Jun 2016). doi: 10.1063/1.4953767

  791. Inserting a nonmagnetic spacer layer in Nd2Fe14B/α″-(FeCo)16N2 bilayers significantly improves their coercivity,
    Jiuping Fan, Jia He, Xiaoyan Zhang, Wenjie Dong, Yuhao Bai, and Xiaohong Xu,
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  792. Optimization of energy product and reversal process for Nd2Fe14B/α″-(FeCo)16N2/Nd2Fe14B exchange-spring trilayer films,
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    Journal of Magnetism and Magnetic Materials, 441, 43-48 (Nov 2017). doi: 10.1016/j.jmmm.2017.05.032

  793. Observation of magnetic helicoidal dichroism with extreme ultraviolet light vortices,
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    Physical Review Letters, 128, 077401 (7 pages) (Feb 2022). doi: 10.1103/PhysRevLett.128.077401

  794. Magnetic helicoidal dichroism with XUV light carrying orbital angular momentum,
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  795. Writability issues in high-anisotropy perpendicular magnetic recording media,
    Wang Fang and Xu Xiao-Hong,
    Chinese Physics B, 23, 036802 (12 pages) (Jan 2014). doi: 10.1088/1674-1056/23/3/036802

  796. Numerical investigation of domain walls in constrained geometries,
    Hans Fangohr, Jürgen P. Zimmermann, Richard P. Boardman, David C. Gonzalez, and Cornelis H. de Groot,
    Journal of Applied Physics, 103, 07D926 (3 pages) (Apr 2008). doi: 10.1063/1.2838474

  797. A new approach to (quasi) periodic boundary conditions in micromagnetics: The macrogeometry,
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  798. Nonstochastic magnetic reversal in artificial quasicrystalline spin ice,
    B. Farmer, V.S. Bhat, J. Sklenar, J. Woods, E. Teipel, N. Smith, J.B. Ketterson, J.T. Hastings, and L.E. De Long,
    Journal of Applied Physics, 115, 17E133 (3 pages) (May 2014). doi: 10.1063/1.4869288

  799. Magnetic response of aperiodic wire networks based on Fibonacci distortions of square antidot lattices,
    B. Farmer, V.S. Bhat, J. Sklenar, E. Teipel, J. Woods, J.B. Ketterson, J.T. Hastings, and L.E. De Long,
    Journal of Applied Physics, 117, 17B714 (3 pages) (Mar 2015). doi: 10.1063/1.4913820

  800. Direct imaging of coexisting ordered and frustrated sublattices in artificial ferromagnetic quasicrystals,
    B. Farmer, V.S. Bhat, A. Balk, E. Teipel, N. Smith, J. Unguris, D.J. Keavney, J.T. Hastings, and L.E. De Long,
    Physical Review B, 93, 134428 (11 pages) (Apr 2016). doi: 10.1103/PhysRevB.93.134428

  801. Nanoscale magnetization inhomogeneity within single phase nanopillars,
    Thomas O. Farmer, Er-Jia Guo, Ryan D. Desautels, Lisa DeBeer-Schmitt, Aiping Chen, Zhongchang Wang, Quanxi Jia, Julie A. Borchers, Dustin A. Gilbert, Ben Holladay, Sunil K. Sinha, and Michael R. Fitzsimmons,
    Physical Review Materials, 3, 081401 (8 pages) (Aug 2019). doi: 10.1103/PhysRevMaterials.3.081401

  802. Ferromagnetic resonance in a microtube,
    V.A. Fel’k and S.V. Komogortsev,
    Journal of Applied Physics, 129, 183904 (7 pages) (May 2021). doi: 10.1063/5.0045548

  803. MFM imaging of micron-sized permalloy ellipses,
    S. Felton, K. Gunnarsson, P.E. Roy, P. Svedlindh, and A. Quist,
    Journal of Magnetism and Magnetic Materials, 280, 202-207 (Sep 2004). doi: 10.1016/j.jmmm.2004.03.013

  804. Domain configuration of permalloy ellipses in a rotating magnetic field,
    S. Felton, P. Warnicke, K. Gunnarsson, P.E. Roy, H. Lidbaum, and P. Svedlindh,
    Journal of Physics D: Applied Physics, 39, 610-614 (Feb 2006). doi: 10.1088/0022-3727/39/4/002

  805. Manipulation of precession modes in all-permalloy nanostripe-nanopillar structured spin torque nano-oscillator driven by direct current,
    Jindi Feng, Kunpeng Li, Mingkun Zheng, Xiaojuan Yuan, Yong Liu, Zhihong Lu, and Rui Xiong,
    Nanotechnology, 33, 095001 (11 pages) (Dec 2021). doi: 10.1088/1361-6528/ac1a45

  806. Magnetic noise in MgO-based magnetic tunnel junction rings,
    J.F. Feng, Z. Diao, G. Feng, E.R. Nowak, and J.M.D. Coey,
    Applied Physics Letters, 96, 052504 (3 pages) (Feb 2010). doi: 10.1063/1.3295707

  807. Localized detection of reversal nucleation generated by high moment magnetic nanoparticles using a large-area magnetic sensor,
    Yinglong Feng, Jinming Liu, Todd Klein, Kai Wu, and Jian-Ping Wang,
    Journal of Applied Physics, 122, 123901 (8 pages) (Sep 2017). doi: 10.1063/1.5001919

  808. A skyrmion-based spin-torque nano-oscillator with enhanced edge,
    Youhua Feng, Jing Xia, Lei Qiu, Xinran Cai, Laichuan Shen, Francois J. Morvan, Xichao Zhang, Yan Zhou, and Guoping Zhao,
    Journal of Magnetism and Magnetic Materials, 491, 165610 (6 pages) (Dec 2019). doi: 10.1016/j.jmmm.2019.165610

  809. Ultrahigh frequency spin-torque nano-oscillator based on bilayer-skyrmions,
    Youhua Feng, Huangkun Zhu, Xi Zhang, and Gang Xiang,
    Journal of Magnetism and Magnetic Materials, 543, 168641 (6 pages) (Feb 2022). doi: 10.1016/j.jmmm.2021.168641

  810. A skyrmion diode based on skyrmion Hall effect,
    Youhua Feng, Xi Zhang, Guoping Zhao, and Gang Xiang,
    IEEE Transactions on Electron Devices, 69, 1293-1297 (Mar 2022). doi: 10.1109/TED.2021.3138837

  811. Dynamics of orbital skyrmions in a circular nanodisk,
    Youhua Feng, Xi Zhang, and Gang Xiang,
    Physical Chemistry Chemical Physics, 25, 12050-12056 (May 2023). doi: 10.1039/D3CP00858D

  812. Effects of external magnetic field on the solidification process in Nd-Fe-B alloy: Phase-field simulation,
    Zikang Feng, Yuan Hong, Gang Wang, Xuehua Wu, and Dechang Zeng,
    Modelling and Simulation in Materials Science and Engineering, 26, 025012 (12 pages) (Jan 2018). doi: 10.1088/1361-651X/aa9fce

  813. The unusual distribution of spin-triplet supercurrents in disk-shaped Josephson junctions,
    Remko Fermin, Junxiang Yao, Kaveh Lahabi, and Jan Aarts,
    Superconductor Science and Technology, 36, 064001 (11 pages) (Apr 2023). doi: 10.1088/1361-6668/acc982

  814. Thermal stability of L10-FePt nanodots patterned by self-assembled block copolymer lithography,
    Eduardo Fernandez, Kun-Hua Tu, Pin Ho, and Caroline A. Ross,
    Nanotechnology, 29, 465301 (9 pages) (Sep 2018). doi: 10.1088/1361-6528/aade2f

  815. Magnetization reversal in individual cobalt micro- and nanowires grown by focused-electron-beam-induced-deposition,
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    Nanotechnology, 20, 475704 (9 pages) (Oct 2009). doi: 10.1088/0957-4484/20/47/475704

  816. Three dimensional magnetic nanowires grown by focused electron-beam induced deposition,
    Amalio Fernández-Pacheco, Luis Serrano-Ramón, Jan M. Michalik, M. Ricardo Ibarra, José M. De Teresa, Liam O’Brien, Dorothée Petit, Jihyun Lee, and Russell P. Cowburn,
    Scientific Reports, 3, 1492 (5 pages) (Mar 2013). doi: 10.1038/srep01492

  817. Micromagnetic evaluation of the dissipated heat in cylindrical magnetic nanowires,
    Jose Angel Fernandez-Roldan, David Serantes, Rafael P. del Real, Manuel Vazquez, and Oksana Chubykalo-Fesenko,
    Applied Physics Letters, 112, 212402 (4 pages) (May 2018). doi: 10.1063/1.5025922

  818. A comparative study of magnetic properties of large diameter Co nanowires and nanotubes,
    Jose Angel Fernandez-Roldan, Dieivase Chrischon, Lucio Strazzabosco Dorneles, Oksana Chubykalo-Fesenko, Manuel Vazquez, and Cristina Bran,
    nanomaterials, 8, 692 (12 pages) (Sep 2018). doi: 10.3390/nano8090692

  819. Origin of shape anisotropy effects in solution-phase synthesized FePt nanomagnets,
    D.A. Ferrer, S. Guchhait, H. Liu, F. Ferdousi, C. Corbet, H. Xu, M. Doczy, G. Bourianoff, L. Mathew, R. Rao, S. Saha, M. Ramon, S. Ganguly, J.T. Markert, and S.K. Banerjee,
    Journal of Applied Physics, 110, 014316 (7 pages) (Jul 2011). doi: 10.1063/1.3608109

  820. Adaptive geometric integration applied to a 3D micromagnetic solver,
    Riccardo Ferrero and Alessandra Manzin,
    Journal of Magnetism and Magnetic Materials, 518, 167409 (9 pages) (Jan 2021). doi: 10.1016/j.jmmm.2020.167409

  821. Skyrmions on the track,
    Albert Fert, Vincent Cros, and João Sampaio,
    Nature Nanotechnology, 8, 152-156 (Mar 2013). doi: 10.1038/nnano.2013.29

  822. Impact of core-shell dipolar interaction on magnetic phases of spherical core-shell nanoparticles,
    F.C. Medeiros Filho, L.L. Oliveira, S.S. Pedrosa, G.O.G. Rebouças, A.S. Carriço, and Ana L. Dantas,
    Physical Review B, 92, 064422 (7 pages) (Aug 2015). doi: 10.1103/PhysRevB.92.064422

  823. Influence of three-dimensional inhomogeneities of the magnetic parameters on the dynamics of vortex-like domain walls,
    B.N. Filippov and M.N. Dubovik,
    Physics of the Solid State, 56, 967-974 (May 2014). doi: 10.1134/S1063783414050084

  824. Numerical studies of micromagnetic configurations in stripes with in-plane anisotropy and low quality factor,
    B.N. Filippov, M.N. Dubovik, and V.V. Zverev,
    Journal of Magnetism and Magnetic Materials, 374, 600-606 (Jan 2015). doi: 10.1016/j.jmmm.2014.09.011

  825. Indirect switching of vortex polarity through magnetic dynamic coupling,
    G.B.M. Fior, E.R.P. Novais, J.P. Sinnecker, A.P. Guimarães, and F. Garcia,
    Journal of Applied Physics, 119, 093906 (6 pages) (Mar 2016). doi: 10.1063/1.4942534

  826. A systematic approach to multiphysics extensions of finite-element-based micromagnetic simulations: Nmag,
    T. Fischbacher, M. Franchin, G. Bordignon, and H. Fangohr,
    IEEE Transactions on Magnetics, 43, 2896-2898 (Jun 2007). doi: 10.1109/TMAG.2007.893843

  827. Studies of magnetic microstructures with soft X-ray transmission microscopy,
    Peter Fischer,
    IEEE Journal of Quantum Electronics, 42, 36-43 (Jan 2006). doi: 10.1109/JQE.2005.851556

  828. Soft X-ray microscopy of nanomagnetism,
    Peter Fischer, Dong-Hyun Kim, Weilun Chao, J. Alexander Liddle, Erik H. Anderson, and David T. Attwood,
    Materials Today, 9, 26-33 (Jan 2006). doi: 10.1016/S1369-7021(05)71335-3

  829. Magnetic microstructures and their dynamics studied by X-ray microscopy,
    P. Fischer, D.-H. Kim, B. Kang, W. Chao, and E.H. Anderson,
    Micron, 37, 296-300 (Jun 2006). doi: 10.1016/j.micron.2005.10.005

  830. X-ray imaging of vortex cores in confined magnetic structures,
    P. Fischer, M.-Y. Im, S. Kasai, K. Yamada, T. Ono, and A. Thiaville,
    Physical Review B, 83, 212402 (4 pages) (Jun 2011). doi: 10.1103/PhysRevB.83.212402

  831. High-resolution fully vectorial scanning Kerr magnetometer,
    Lukáš Flajšman, Michal Urbánek, Viola Křižáková, Marek Vaňatka, Igor Turčan, and Tomáš Šikola,
    Review of Scientific Instruments, 87, 053704 (7 pages) (May 2016). doi: 10.1063/1.4948595

  832. Soft X-ray magnetic scattering studies of 3D magnetic morphology along buried interfaces in NiFe/CoPd/NiFe nanostructures,
    Samuel Flewett, Thiago J.A. Mori, Alexandra Ovalle, Simón Oyarzún, Antonio Ibáñez, Sebastián Michea, Juan Escrig, and Juliano Denardin,
    Scientific Reports, 9, 14823 (12 pages) (Oct 2019). doi: 10.1038/s41598-019-51098-9

  833. Spin-current-induced magnetization reversal in magnetic nanowires with constrictions,
    S.H. Florez, C. Krafft, and R.D. Gomez,
    Journal of Applied Physics, 97, 10C705 (3 pages) (May 2005). doi: 10.1063/1.1851434

  834. Magnetic properties of electrospun magnetic nanofiber mats after stabilization and carbonization,
    Nadine Fokin, Timo Grothe, Al Mamun, Marah Trabelsi, Michaela Klöcker, Lilia Sabantina, Christoph Döpke, Tomasz Blachowicz, Andreas Hütten, and Andrea Ehrmann,
    Materials, 13, 1552 (15 pages) (Mar 2020). doi: 10.3390/ma13071552

  835. The micromagnetic ground states in epitaxial Fe (0 0 1) microstructures,
    L.A. Fomin, I.V. Malikov, S.V. Pyatkin, and G.M. Mikhailov,
    Journal of Magnetism and Magnetic Materials, 322, 851-857 (Apr 2009). doi: 10.1016/j.jmmm.2009.11.016

  836. Micromagnetic states in Fe (001) rectangular epitaxial microstructures: The effect of magnetic anisotropy and aspect ratio,
    L.A. Fomin, V.Yu. Vinnichenko, I.V. Malikov, and G.M. Mikhailov,
    Journal of Magnetism and Magnetic Materials, 330, 6-11 (Mar 2013). doi: 10.1016/j.jmmm.2012.08.001

  837. Switching the direction of circumferential magnetization of square epitaxial Fe (001) microstructures by spin-polarized current,
    L.A. Fomin, I.V. Malikov, K.M. Kalach, S.V. Pyatkin, P.E. Zil’berman, and G.M. Mikhailov,
    Russian Microelectronics, 42, 309-313 (Sep 2013). doi: 10.1134/S1063739713050041

  838. Study of the morphology and magnetic properties of Fe island films with antiferromagnetic layers,
    L.A. Fomin, A.V. Chernykh, V.A. Berezin, and E.A. Vilkov,
    Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 15, 128-138 (Jan 2021). doi: 10.1134/S1027451021010237

  839. Complimentary polarizers STT-MRAM (CPSTT) for on-chip caches,
    Xuanyao Fong and Kaushik Roy,
    IEEE Electron Device Letters, 34, 232-234 (Feb 2013). doi: 10.1109/LED.2012.2234079

  840. Non-volatile complementary polarizer spin-transfer torque on-chip caches: A device/circuit/systems perspective,
    Xuanyao Fong, Rangharajan Venkatesan, Anand Raghunathan, and Kaushik Roy,
    IEEE Transactions on Magnetics, 50, 3400611 (12 pages) (Oct 2014). doi: 10.1109/TMAG.2014.2326858

  841. Embedding read-only memory in spin-transfer torque MRAM-based on-chip caches,
    Xuanyao Fong, Rangharajan Venkatesan, Dongsoo Lee, Anand Raghunathan, and Kaushik Roy,
    IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 24, 992-1002 (Mar 2016). doi: 10.1109/TVLSI.2015.2439733

  842. Formation of magnetic domains and domain walls in epitaxial Fe3O4 (100) elements,
    M. Fonin, C. Hartung, U. Rüdiger, D. Backes, L. Heyderman, F. Nolting, A.F. Rodríguez, and M. Kläui,
    Journal of Applied Physics, 109, 07D315 (4 pages) (Mar 2011). doi: 10.1063/1.3540678

  843. Electric-dipole-induced spin resonance in a lateral double quantum dot incorporating two single-domain nanomagnets,
    F. Forster, M. Mühlbacher, D. Schuh, W. Wegscheider, and S. Ludwig,
    Physical Review B, 91, 195417 (9 pages) (May 2015). doi: 10.1103/PhysRevB.91.195417

  844. Magnetic domains without domain walls: A unique effect of He+ ion bombardment in ferrimagnetic Tb/Co films,
    Łukasz Frąckowiak, Piotr Kuświk, Gabriel David Chaves-O’Flynn, Maciej Urbaniak, Michał Matczak, Paweł Piotr Michałowski, Andrzej Maziewski, Meike Reginka, Arno Ehresmann, and Feliks Stobiecki,
    Physical Review Letters, 124, 047203 (7 pages) (Jan 2020). doi: 10.1103/PhysRevLett.124.047203

  845. Skyrmion states in multilayer exchange coupled ferromagnetic nanostructures with distinct anisotropy directions,
    A.A. Fraerman, O.L. Ermolaeva, E.V. Skorohodov, N.S. Gusev, V.L. Mironov, S.N. Vdovichev, and E.S. Demidov,
    Journal of Magnetism and Magnetic Materials, 393, 452-456 (Nov 2015). doi: 10.1016/j.jmmm.2015.06.017

  846. Magnetic dot clusters for application in magneto-electronics,
    M. Francardi, M. Sepioni, A. Gerardino, F. Sansone, G. Gubbiotti, M. Madami, S. Tacchi, and G. Carlotti,
    Microelectronic Engineering, 87, 1614-1616 (May 2010). doi: 10.1016/j.mee.2009.10.039

  847. Field tuning of ferromagnetic domain walls on elastically coupled ferroelectric domain boundaries,
    K.J.A. Franke, T.H.E. Lahtinen, and S. van Dijken,
    Physical Review B, 85, 094423 (4 pages) (Mar 2012). doi: 10.1103/PhysRevB.85.094423

  848. Size dependence of domain pattern transfer in multiferroic heterostructures,
    Kévin J.A. Franke, Diego López González, Sampo J. Hämäläinen, and Sebastiaan van Dijken,
    Physical Review Letters, 112, 017201 (5 pages) (Jan 2014). doi: 10.1103/PhysRevLett.112.017201

  849. Switching between magnetic Bloch and Néel domain walls with anisotropy modulations,
    Kévin J. A. Franke, Colin Ophus, Andreas K. Schmid, and Christopher H. Marrows,
    Physical Review Letters, 127, 127203 (6 pages) (Sep 2021). doi: 10.1103/PhysRevLett.127.127203

  850. Competition between exchange and magnetostatic energies in domain pattern transfer from BaTiO3(111) to a Ni thin film,
    Kévin J.A. Franke, Colin Ophus, Andreas K. Schmid, and Christopher H. Marrows,
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  851. 60° and 120° degree domain walls in epitaxial BaTiO3(111)/Co multiferroic heterostructures,
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  852. Micromagnetic model for studies on Magnetic Tunnel Junction switching dynamics, including local current density,
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  853. Backhopping in magnetic tunnel junctions: Micromagnetic approach and experiment,
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  854. Spatial Spectrum Analyzer (SSA): A tool for calculations of spatial distribution of fast Fourier transform spectrum from Object Oriented Micromagnetic Framework output data,
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  855. Perpendicular magnetic anisotropy influence on voltage-driven spin-diode effect in magnetic tunnel junctions: A micromagnetic study,
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  856. Shape engineering for custom nanomagnetic logic circuits in NMLSim 2.0,
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  857. Phonon-induced magnetization dynamics in Co-doped iron garnets,
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  858. Localized magnetic fields enhance the field sensitivity of the gyrotropic resonance frequency of a magnetic vortex,
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  859. Exchange-mediated, nonlinear, out-of-plane magnetic field dependence of the ferromagnetic vortex gyrotropic mode frequency driven by core deformation,
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  860. Off-specular polarized neutron reflectometry from periodic arrays of lithographically structured Co dots,
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  861. Magnetization dynamics of a Fibonacci-distorted kagome artificial spin ice,
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  862. Vertex dependent dynamic response of a connected Kagome artificial spin ice,
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  863. Angular-dependent dynamic response and magnetization reversal in Fibonacci-distorted kagome artificial spin ice,
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  864. Transition from antiferromagnetic to quadrupole order in a modified square artificial spin ice,
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  865. Asymmetric hysteresis of Néel caps in flux-closure magnetic dots,
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  866. Finite-difference micromagnetic solvers with the Object-Oriented Micromagnetic Framework on graphics processing units,
    Sidi Fu, Weilong Cui, Matthew Hu, Ruinan Chang, Michael J. Donahue, and Vitaliy Lomakin,
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  867. Optical manipulation of magnetic vortices visualized in situ by Lorentz electron microscopy,
    Xuewen Fu, Shawn D. Pollard, Bin Chen, Byung-Kuk Yoo, Hyunsoo Yang, and Yimei Zhu,
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  868. Micromagnetic analysis of current driven domain wall motion in nanostrips with perpendicular magnetic anisotropy,
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    Journal of Applied Physics, 103, 07E718 (3 pages) (Apr 2008). doi: 10.1063/1.2830964

  869. Intrinsic threshold current density of domain wall motion in nanostrips with perpendicular magnetic anisotropy for use in low-write-current MRAMs,
    S. Fukami, T. Suzuki, N. Ohshima, K. Nagahara, and N. Ishiwata,
    IEEE Transactions on Magnetics, 44, 2539-2542 (Nov 2008). doi: 10.1109/TMAG.2008.2002370

  870. Magnetic vortex dynamics induced by an electrical current,
    Y. Gaididei, V.P. Kravchuk, and D.D. Sheka,
    International Journal of Quantum Chemistry, 110, 83-97 (Jan 2010). doi: 10.1002/qua.22253

  871. Multiple vortex-antivortex pair generation in magnetic nanodots,
    Y. Gaididei, V.P. Kravchuk, D.D. Sheka, and F.G. Mertens,
    Physical Review B, 81, 94431 (11 pages) (Mar 2010). doi: 10.1103/PhysRevB.81.094431

  872. Magnetic vortex-antivortex crystals generated by spin-polarized current,
    Yuri Gaididei, Oleksii M. Volkov, Volodymyr P. Kravchuk, and Denis D. Sheka,
    Physical Review B, 86, 144401 (12 pages) (Oct 2012). doi: 10.1103/PhysRevB.86.144401

  873. Switching phenomena in magnetic vortex dynamics,
    Y.B. Gaididei, V.P. Kravchuk, D.D. Sheka, and F.G. Mertens,
    Low Temperature Physics, 34, 528-534 (Jul 2008). doi: 10.1063/1.2957013

  874. Flat bands, indirect gaps, and unconventional spin-wave behavior induced by a periodic Dzyaloshinskii-Moriya interaction,
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    Physical Review Letters, 122, 067204 (8 pages) (Feb 2019). doi: 10.1103/PhysRevLett.122.067204

  875. Self-aligned and stray-field-free electrodes for spintronics: An application to a spin field effect transistor,
    P. Gallo, A. Arnoult, T. Camps, E. Havard, C. Fontaine, L. Lombez, T. Amand, X. Marie, and A. Bournel,
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  876. Magnetic electrodes in the onion state for spin injection into semiconductors,
    P. Gallo, L. Lombez, A. Bournel, T. Amand, T. Camps, X. Marie, E. Havard, C. Fontaine, and A. Arnoult,
    physica status solidi (c), 4, 501-504 (Feb 2007). doi: 10.1002/pssc.200673222

  877. Field-driven magnetic phase diagram and vortex stability in Fe nanometric square prisms,
    Mauricio Galvis, Fredy Mesa, and Johans Restrepo,
    Nanomaterials, 12, 4243 (12 pages) (Nov 2022). doi: 10.3390/nano12234243

  878. Dynamics of the magnetization of an Fe nano-ring in the presence of an applied external magnetic field,
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    Revista de la Facultad de Ciencias, 12, 85-97 (Jan 2023). doi: 10.15446/rev.fac.cienc.v12n1.104230

  879. Effect of the direction of an external applied magnetic field on the micromagnetic properties of Fe cuboids,
    Mauricio Galvis-Patiño and Johans Restrepo-Cárdenas,
    Momento, 65, 39-51 (Dec 2022). doi: 10.15446/mo.n65.100454

  880. Multi-vortex states in magnetic nanoparticles,
    W.L. Gan, M. Chandra Sekhar, D.W. Wong, I. Purnama, S.Y. Chiam, L.M. Wong, and W.S. Lew,
    Applied Physics Letters, 105, 152405 (5 pages) (Oct 2014). doi: 10.1063/1.4898349

  881. Ellipsoidal magnetite nanoparticles: A new member of the magnetic-vortex nanoparticles family for efficient magnetic hyperthermia,
    Hongxu Gao, Tingbin Zhang, Yifan Zhang, Yimin Chen, Bo Liu, Jianpeng Wu, Xiaoli Liu, Yudong Li, Mingli Peng, Ying Zhang, Gang Xie, Fengqi Zhao, and Hai Ming Fan,
    Journal of Materials Chemistry B, 8, 515-522 (Jan 2020). doi: 10.1039/C9TB00998A

  882. Magnetization reversal process and magnetic relaxation of self-assembled Fe3Pt nanowire arrays with different diameters: Experiment and micromagnetic simulations,
    J.H. Gao, D.L. Sun, Q.F. Zhan, W. He, and Z.H. Cheng,
    Physical Review B, 75, 64421 (6 pages) (Feb 2007). doi: 10.1103/PhysRevB.75.064421

  883. Structure and magnetic properties of the self-assembled Co52Pt48 nanowire arrays,
    Jian-Hua Gao, Da-Li Sun, Xiang-Qun Zhang, Qing-Feng Zhan, Wei He, Young Sun, and Zhao-Hua Cheng,
    Applied Physics Letters, 92, 102501 (3 pages) (Mar 2008). doi: 10.1063/1.2894199

  884. A study of magnetic interactions of Ni80Fe20 arrays using ultrasensitive microcantilever torque magnetometry,
    L. Gao, D.Q. Feng, L. Yuan, T. Yokota, R. Sabirianov, S.H. Liou, M.D. Chabot, D. Porpora, and J. Moreland,
    Journal of Applied Physics, 95, 7010-7012 (Jun 2004). doi: 10.1063/1.1682912

  885. Creation and annihilation of topological meron pairs in in-plane magnetized films,
    N. Gao, S.-G. Je, M.-Y. Im, J.W. Choi, M. Yang, Q. Li, T.Y. Wang, S. Lee, H.-S. Han, K.-S. Lee, W. Chao, C. Hwang, J. Li, and Z.Q. Qiu,
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  886. Large energy product enhancement in perpendicularly coupled MnBi/CoFe magnetic bilayers,
    T.R. Gao, L. Fang, S. Fackler, S. Maruyama, X.H. Zhang, L.L. Wang, T. Rana, P. Manchanda, A. Kashyap, K. Janicka, A.L. Wysocki, A.T. N’Diaye, E. Arenholz, J.A. Borchers, B.J. Kirby, B.B. Maranville, K.W. Sun, M.J. Kramer, V.P. Antropov, D.D. Johnson, R. Skomski, J. Cui, and I. Takeuchi,
    Physical Review B, 94, 060411 (5 pages) (Aug 2016). doi: 10.1103/PhysRevB.94.060411

  887. Inhomogeneities in spin states and magnetization reversal of geometrically identical elongated Co rings,
    X.S. Gao, A.O. Adeyeye, S. Goolaup, N. Singh, W. Jung, F.J. Castaño, and C.A. Ross,
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  888. Magnetization reversal process in elongated Co rings with engineered defects,
    X.S. Gao, A.O. Adeyeye, and C.A. Ross,
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  889. Scaling study of spin-Hall-assisted spin transfer torque driven magnetization switching in the presence of Dzyaloshinskii-Moriya interaction,
    Yuqian Gao, Zhaohao Wang, Xiaoyang Lin, Wang Kang, Youguang Zhang, and Weisheng Zhao,
    IEEE Transactions on Nanotechnology, 16, 1138-1142 (Nov 2017). doi: 10.1109/TNANO.2017.2754406

  890. Dynamical modes in a vertical nanocontact-based spin Hall nano-oscillator,
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    Physical Review B, 107, 214410 (10 pages) (Jun 2023). doi: 10.1103/PhysRevB.107.214410

  891. Laser-induced magnetization dynamics in Si-doped yttrium-iron garnet film,
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    Condensed Matter, 7, 55 (9 pages) (Dec 2022). doi: 10.3390/condmat7040055

  892. Tailoring magnetic vortices in nanostructures,
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    Applied Physics Letters, 97, 022501 (3 pages) (Jul 2010). doi: 10.1063/1.3462305

  893. Magnetic vortex echoes,
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  894. MFM imaging of patterned permalloy elements under an external applied field,
    J.M. García, A. Thiaville, J. Miltat, K.J. Kirk, and J.N. Chapman,
    Journal of Magnetism and Magnetic Materials, 242-245, 1267-1269 (Apr 2002). doi: 10.1016/S0304-8853(01)01027-7

  895. MFM imaging of nanowires and elongated patterned elements,
    J.M. García, A. Thiaville, and J. Miltat,
    Journal of Magnetism and Magnetic Materials, 249, 163-169 (Aug 2002). doi: 10.1016/S0304-8853(02)00525-5

  896. Imaging magnetic vortices by magnetic force microscopy: Experiments and modelling,
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    Journal of Physics D: Applied Physics, 37, 965-972 (2004). doi: 10.1088/0022-3727/37/7/001

  897. Simulations and experiments on magneto-optical diffraction by an array of epitaxial Fe(001) microsquares,
    P. García-Mochales, J.L. Costa-Krämer, G. Armelles, F. Briones, D. Jaque, J.I. Martín, and J.L. Vicent,
    Applied Physics Letters, 81, 3206-3208 (Oct 2002). doi: 10.1063/1.1514388

  898. Dependence of spin current modulation on stress-mediated magneto-electric coupling in ferromagnetic devices,
    Janeth Alexandra García-Monge and Arturo A. Ayón,
    Journal of Physics D: Applied Physics, 54, 345005 (9 pages) (Jun 2021). doi: 10.1088/1361-6463/ac0704

  899. Electric field control of magnetic states in ferromagnetic-multiferroic nanostructures,
    Zukhra Gareeva, Nikolai Shulga, Rurik Doroshenko, and Anatoly Zvezdin,
    Physical Chemistry Chemical Physics, 25, 22380-22387 (Aug 2023). doi: 10.1039/D3CP02913A

  900. 2D-perovskite multiferroics: Interface-induced magnetoelectric effect in perovskite-based multiferroic superlattices,
    Zukhra Gareeva, Ildus Sharafullin, and Anatoly Zvezdin,
    Crystals, 13, 1404 (12 pages) (Sep 2023). doi: 10.3390/cryst13091404

  901. Influence of the Dzyaloshinskii-Moriya interaction on the properties of magnetic states in nanostructures,
    Z.V. Gareeva, N.V. Shulga, and R.A. Doroshenko,
    Journal of Magnetism and Magnetic Materials, 536, 168079 (6 pages) (Oct 2021). doi: 10.1016/j.jmmm.2021.168079

  902. Mechanisms of magnetoelectric effects in oxide multiferroics with a perovskite praphase,
    Z.V. Gareeva, A.K. Zvezdin, N.V. Shul’ga, T.T. Gareev, and S.M. Chen,
    Physics of the Solid State, 64, 248-254 (May 2022). doi: 10.1134/S1063783422060038

  903. Hysteresis of magnetization and electric polarization in magnetic nanostructures with Dzyaloshinskii-Moriya interaction,
    Z.V. Gareeva, N.V. Shul’ga, I.F. Sharafullin, R.A. Doroshenko, and A.K. Zvezdin,
    Journal of Experimental and Theoretical Physics, 136, 53-58 (Jan 2023). doi: 10.1134/S1063776123010016

  904. Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing,
    Jack C. Gartside, Daan M. Arroo, David M. Burn, Victoria L. Bemmer, Andy Moskalenko, Lesley F. Cohen, and Will R. Branford,
    Nature Nanotechnology, 13, 53-58 (Jan 2018). doi: 10.1038/s41565-017-0002-1

  905. Size-specific spin configurations in single iron nanomagnet: From flower to exotic vortices,
    Christophe Gatel, Francisco Javier Bonilla, Anca Meffre, Etienne Snoeck, Bénédicte Warot-Fonrose, Bruno Chaudret, Lise-Marie Lacroix, and Thomas Blon,
    Nano Letters, 15, 6952-6957 (Sep 2015). doi: 10.1021/acs.nanolett.5b02892

  906. Off-axis electron holography for the quantitative study of magnetic properties of nanostructures: From the single nanomagnet to the complex device,
    C. Gatel, A. Masseboeuf, E. Snoeck, F. Bonnilla, T. Blon, L.-M. Lacroix, A. Meffre, J.F. Einsle, R.M. Bowman, M.A. Bashir, and M. Gubbins,
    Microscopy and Microanalysis, 21, 2147-2148 (Sep 2015). doi: 10.1017/S1431927615011514

  907. Inhomogeneous spatial distribution of the magnetic transition in an iron-rhodium thin film,
    C. Gatel, B. Warot-Fonrose, N. Biziere, L.A. Rodríguez, D. Reyes, R. Cours, M. Castiella, and M.J. Casanove,
    Nature Communications, 8, 15703 (8 pages) (Jun 2017). doi: 10.1038/ncomms15703

  908. Magnetic force microscopy study of shape engineered FEBID iron nanostructures,
    Marco Gavagnin, Heinz D. Wanzenboeck, Domagoj Belic, Mostafa M. Shawrav, Anders Persson, Klas Gunnarsson, Peter Svedlindh, and Emmerich Bertagnolli,
    physica status solidi (a), 211, 368-374 (Feb 2014). doi: 10.1002/pssa.201330114

  909. Free-standing magnetic nanopillars for 3-D nanomagnet logic,
    Marco Gavagnin, Heinz D. Wanzenboeck, Stefan Wachter, Mostafa Moonir Shawrav, Anders Persson, Klas Gunnarsson, Peter Svedlindh, Michael Stöger-Pollach, and Emmerich Bertagnolli,
    ACS Applied Materials and Interfaces, 6, 20254-20260 (Nov 2014). doi: 10.1021/am505785t

  910. How size, shape and assembly of magnetic nanoparticles give rise to different hyperthermia scenarios,
    H. Gavilán, K. Simeonidis, E. Myrovali, E. Mazarío, O. Chubykalo-Fesenko, R. Chantrell, Ll. Balcells, M. Angelakeris, M.P. Morales, and D. Serantes,
    Nanoscale, 13, 15631-15646 (Oct 2021). doi: 10.1039/D1NR03484G

  911. Micromagnetism of permalloy antidot arrays prepared from alumina templates,
    P. Gawronski, K.J. Merazzo, O. Chubykalo-Fesenko, R.P. del Real, and M. Vázquez,
    Nanotechnology, 25, 475703 (6 pages) (Nov 2014). doi: 10.1088/0957-4484/25/47/475703

  912. A novel magnetic random access memory design using square ring elements for the hard layer,
    D.N. Geerpuram, A.S. Mani, and V.S. Baskaran,
    Journal of Electronic Materials, 33, 1269-1273 (Nov 2004). doi: 10.1007/s11664-004-0152-4

  913. Coercive field enhancement in Co nanodisks: Single-domain to vortex switching,
    Ciro F. Gélvez and Edgar J. Patiño,
    Journal of Physics: Condensed Matter, 31, 13LT01 (6 pages) (Feb 2019). doi: 10.1088/1361-648X/ab015e

  914. Magnetically tunable organic semiconductors with superparamagnetic nanoparticles,
    Rugang Geng, Hoang Mai Luong, Minh Thien Pham, Raja Das, Kristen Stojak Repa, Joshua Robles-Garcia, Tuan Anh Duong, Huy Thanh Pham, Thi Huong Au, Ngoc Diep Lai, George Keefe Larsen, Manh-Huong Phan, and Tho Duc Nguyen,
    Materials Horizons, 6, 1913-1922 (Oct 2019). doi: 10.1039/C9MH00265K

  915. The effects of geometry on magnetic response of elliptical PHE sensors,
    I. Genish, Y. Shperber, N. Naftalis, G. Salitra, D. Aurbach, and L. Klein,
    Journal of Applied Physics, 107, 09E716 (3 pages) (May 2010). doi: 10.1063/1.3337743

  916. Micromagnetics of the dynamic susceptibility for coupled Permalloy stripes,
    O. Gérardin, J. Ben Youssef, H. Le Gall, N. Vukadinovic, P.M. Jacquart, and M.J. Donahue,
    Journal of Applied Physics, 88, 5899-5903 (Nov 2000). doi: 10.1063/1.1320011

  917. Micromagnetic calculation of the high frequency dynamics of nano-size rectangular ferromagnetic stripes,
    O. Gérardin, H. Le Gall, M.J. Donahue, and N. Vukadinovic,
    Journal of Applied Physics, 89, 7012-7014 (Jun 2001). doi: 10.1063/1.1360390

  918. Controlled pinning and depinning of domain walls in nanowires with perpendicular magnetic anisotropy,
    T. Gerhardt, A. Drews, and G. Meier,
    Journal of Physics: Condensed Matter, 24, 024208 (9 pages) (Jan 2012). doi: 10.1088/0953-8984/24/2/024208

  919. Anomalously large spin-current voltages on the surface of SmB6,
    Johannes Geurs, Gihun Ryu, Chengtian Lin, and Jurgen H. Smet,
    Physical Review B, 100, 035435 (5 pages) (Jul 2019). doi: 10.1103/PhysRevB.100.035435

  920. Annihilation of domain walls in a ferromagnetic wire,
    Anirban Ghosh, Kevin S. Huang, and Oleg Tchernyshyov,
    Physical Review B, 95, 180408 (4 pages) (May 2017). doi: 10.1103/PhysRevB.95.180408

  921. Domain wall oscillators,
    Bahniman Ghosh and Gaurav Solanki,
    Applied Physics A: Materials Science and Processing, 118, 101-106 (Jan 2015). doi: 10.1007/s00339-014-8768-6

  922. Voltage assisted control of spin-transfer nano-oscillators,
    Bahniman Ghosh and Gaurav Solanki,
    Journal of Semiconductors, 36, 034004 (4 pages) (Mar 2015). doi: 10.1088/1674-4926/36/3/034004

  923. Micromagnetic analysis of Heusler alloy-based perpendicular double barrier synthetic antiferromagnetic free layer MTJs,
    Bahniman Ghosh and Kshitij Dwivedi,
    Journal of Theoretical and Applied Physics, 9, 207-212 (Jul 2015). doi: 10.1007/s40094-015-0181-9

  924. Micromagnetic analysis of a double-barrier synthetic antiferromagnetic MTJ stack,
    Bahniman Ghosh and Kshitij Dwivedi,
    Applied Nanoscience, 5, 771-775 (Oct 2015). doi: 10.1007/s13204-014-0378-2

  925. A simulation study of voltage-assisted low-energy switching of a perpendicular anisotropy ferromagnet on a topological insulator,
    Bahniman Ghosh, Rik Dey, Leonard F. Register, and Sanjay K. Banerjee,
    Journal of Computational Electronics, 16, 120-126 (Jan 2017). doi: 10.1007/s10825-016-0951-x

  926. Spintronics and security: Prospects, vulnerabilities, attack models, and preventions,
    Swaroop Ghosh,
    Proceedings of the IEEE, 104, 1864-1893 (Oct 2016). doi: 10.1109/JPROC.2016.2583419

  927. An antidot array as an edge for total non-reflection of spin waves in yttrium iron garnet films,
    R. Gieniusz, V.D. Bessonov, U. Guzowska, A.I. Stognii, and A. Maziewski,
    Applied Physics Letters, 104, 082412 (5 pages) (Feb 2014). doi: 10.1063/1.4867026

  928. Multiple ferromagnetic resonance in mesoscopic permalloy rings,
    F. Giesen, J. Podbielski, T. Korn, and D. Grundler,
    Journal of Applied Physics, 97, 10A712 (3 pages) (May 2005). doi: 10.1063/1.1851932

  929. Vortex circulation control in large arrays of asymmetric magnetic rings,
    F. Giesen, J. Podbielski, B. Botters, and D. Grundler,
    Physical Review B, 75, 184428 (4 pages) (May 2007). doi: 10.1103/PhysRevB.75.184428

  930. Mode localization transition in ferromagnetic microscopic rings,
    F. Giesen, J. Podbielski, and D. Grundler,
    Physical Review B, 76, 014431 (11 pages) (Jul 2007). doi: 10.1103/PhysRevB.76.014431

  931. Precipitating ordered skyrmion lattices from helical spaghetti and granular powders,
    Dustin A. Gilbert, Alexander J. Grutter, Paul M. Neves, Guo-Jiun Shu, Gergely Zimanyi, Brian B. Maranville, Fang-Cheng Chou, Kathryn Krycka, Nicholas P. Butch, Sunxiang Huang, and Julie A. Borchers,
    Physical Review Materials, 3, 014408 (12 pages) (Jan 2019). doi: 10.1103/PhysRevMaterials.3.014408

  932. Field polarity dependent superconducting properties in a superconductor/ferromagnet hybrid with in-plane magnetic moment,
    W. Gillijns, F. Godts, G.W. Ataklti, A.V. Silhanek, J. Van de Vondel, J. Sautner, B. Ilic, V. Metlushko, and V.V. Moshchalkov,
    Physica C: Superconductivity and its Applications, 470, 880-882 (Mar 2010). doi: 10.1016/j.physc.2010.02.037

  933. Confined spin waves in magnetochiral nanotubes with axial and circumferential magnetization,
    Maria Carmen Giordano, Mohammad Hamdi, Andrea Mucchietto, and Dirk Grundler,
    Physical Review Materials, 7, 024405 (6 pages) (Feb 2023). doi: 10.1103/PhysRevMaterials.7.024405

  934. Spin excitations of nanometric cylindrical dots in vortex and saturated magnetic states,
    L. Giovannini, F. Montoncello, F. Nizzoli, G. Gubbiotti, G. Carlotti, T. Okuno, T. Shinjo, and M. Grimsditch,
    Physical Review B, 70, 172404 (4 pages) (Nov 2004). doi: 10.1103/PhysRevB.70.172404

  935. Spin excitations in nanometric magnetic dots: Calculations and comparison with light scattering measurements,
    L. Giovannini, F. Montoncello, R. Zivieri, and F. Nizzoli,
    Journal of Physics: Condensed Matter, 19, 225008 (22 pages) (Jun 2007). doi: 10.1088/0953-8984/19/22/225008

  936. Magnetic normal mode calculations in big systems: A highly scalable dynamical matrix approach applied to a Fibonacci-distorted artificial spin ice,
    Loris Giovannini, Barry W. Farmer, Justin S. Woods, Ali Frotanpour, Lance E. De Long, and Federico Montoncello,
    Magnetochemistry, 7, 34 (15 pages) (Mar 2021). doi: 10.3390/magnetochemistry7030034

  937. Dirac magnons in honeycomb nanostructures,
    L. Giovannini,
    Physical Review B, 107, 104418 (6 pages) (Mar 2023). doi: 10.1103/PhysRevB.107.104418

  938. Magnetic characterisation of Ni triangular elements prepared by nanosphere lithography,
    H. Głaczyńska, U. Ebels, J. Rybczyński, W. Kandulski, and M. Giersig,
    Acta Physica Polonica A, 104, 337-343 (2003). doi: 10.12693/APhysPolA.104.337

  939. Domain wall depinning from notches using combined in- and out-of-plane magnetic fields,
    Jelle J.W. Goertz, Grazvydas Ziemys, Irina Eichwald, Markus Becherer, Henk J.M. Swagten, and Stephan Breitkreutz-v. Gamm,
    AIP Advances, 6, 056407 (7 pages) (Mar 2016). doi: 10.1063/1.4944698

  940. High-yield fabrication of 60 nm Permalloy nanodiscs in well-defined magnetic vortex state for biomedical applications,
    M. Goiriena-Goikoetxea, A. García-Arribas, M. Rouco, A.V. Svalov, and J.M. Barandiaran,
    Nanotechnology, 27, 175302 (10 pages) (Mar 2016). doi: 10.1088/0957-4484/27/17/175302

  941. Magnetization reversal in circular vortex dots of small radius,
    M. Goiriena-Goikoetxea, K.Y. Guslienko, M. Rouco, I. Orue, E. Berganza, M. Jaafar, A. Asenjo, M.L. Fernández-Gubieda, L. Fernández Barquín, and A. García-Arribas,
    Nanoscale, 9, 11269-11278 (Jul 2017). doi: 10.1039/C7NR02389H

  942. Multiple 360° domain wall switching in thin ferromagnetic nanorings in a circular magnetic field,
    Abby Goldman, Abigail S. Licht, Yineng Sun, Yihan Li, Nihar R. Pradhan, Tianyu Yang, Mark T. Tuominen, and Katherine E. Aidala,
    Journal of Applied Physics, 111, 07D113 (3 pages) (Feb 2012). doi: 10.1063/1.3673812

  943. Probing dynamics of micro-magnets with multi-mode superconducting resonator,
    I.A. Golovchanskiy, N.N. Abramov, V.S. Stolyarov, I.V. Shchetinin, P.S. Dzhumaev, A.S. Averkin, S.N. Kozlov, A.A. Golubov, V.V. Ryazanov, and A.V. Ustinov,
    Journal of Applied Physics, 123, 173904 (8 pages) (May 2018). doi: 10.1063/1.5025028

  944. Ferromagnet/superconductor hybridization for magnonic applications,
    Igor A. Golovchanskiy, Nikolay N. Abramov, Vasily S. Stolyarov, Vitaly V. Bolginov, Valery V. Ryazanov, Alexander A. Golubov, and Alexey V. Ustinov,
    Advanced Functional Materials, 28, 1802375 (7 pages) (Aug 2018). doi: 10.1002/adfm.201802375

  945. Modified dispersion law for spin waves coupled to a superconductor,
    I.A. Golovchanskiy, N.N. Abramov, V.S. Stolyarov, V.V. Ryazanov, A.A. Golubov, and A.V. Ustinov,
    Journal of Applied Physics, 124, 233903 (5 pages) (Dec 2018). doi: 10.1063/1.5077086

  946. Ferromagnet/superconductor hybrid magnonic metamaterials,
    Igor A. Golovchanskiy, Nikolay N. Abramov, Vasily S. Stolyarov, Pavel S. Dzhumaev, Olga V. Emelyanova, Alexander A. Golubov, Valery V. Ryazanov, and Alexey V. Ustinov,
    Advanced Science, 6, 1900435 (8 pages) (Jul 2019). doi: 10.1002/advs.201900435

  947. Nonlinear spin waves in ferromagnetic/superconductor hybrids,
    I.A. Golovchanskiy, N.N. Abramov, V.S. Stolyarov, A.A. Golubov, V.V. Ryazanov, and A.V. Ustinov,
    Journal of Applied Physics, 127, 093903 (7 pages) (Mar 2020). doi: 10.1063/1.5141793

  948. Step by step reversion study in ordered array of nickel nanotubes,
    J.L. Gomes and E. Padrón-Hernández,
    Materials Research Express, 4, 126107 (6 pages) (Dec 2017). doi: 10.1088/2053-1591/aa9c24

  949. Stability in static magnetic parameters for a nickel nanotube,
    J.L. Gomes, Y. Guerra, and E. Padrón-Hernández,
    IEEE Transactions on Magnetics, 54, 7205603 (3 pages) (Jul 2018). doi: 10.1109/TMAG.2018.2834314

  950. Control of dissipation in superconducting films by magnetic stray fields,
    A. Gomez, D.A. Gilbert, E.M. Gonzalez, Kai Liu, and J.L. Vicent,
    Applied Physics Letters, 102, 052601 (4 pages) (Feb 2013). doi: 10.1063/1.4790846

  951. Breaking the configurational anisotropy in Fe single crystal nanomagnets,
    A. Gomez, F. Cebollada, F.J. Palomares, N. Sanchez, E.M. Gonzalez, J.M. Gonzalez, and J.L. Vicent,
    Applied Physics Letters, 104, 102406 (5 pages) (Mar 2014). doi: 10.1063/1.4868401

  952. Spin torque ferromagnetic resonance with magnetic field modulation,
    A.M. Gonçalves, I. Barsukov, Y.-J. Chen, L. Yang, J.A. Katine, and I.N. Krivorotov,
    Applied Physics Letters, 103, 172406 (4 pages) (Oct 2013). doi: 10.1063/1.4826927

  953. In-plane anisotropy of coercive field in permalloy square ring arrays,
    A.V. Goncharov, A.A. Zhukov, V.V. Metlushko, G. Bordignon, H. Fangohr, G. Karapetrov, B. Ilic, and P.A.J. de Groot,
    Journal of Applied Physics, 99, 08Q508 (3 pages) (Apr 2006). doi: 10.1063/1.2171949

  954. Anisotropy of magnetization reversal and magnetoresistance in square arrays of permalloy nano-rings,
    A.V. Goncharov, A.A. Zhukov, V.V. Metlushko, G. Bordignon, H. Fangohr, C.H. De Groot, J. Unguris, W.C. Uhlig, G. Karapetrov, B. Ilic, and P.A.J. de Groot,
    IEEE Transactions on Magnetics, 42, 2948-2950 (Oct 2006). doi: 10.1109/TMAG.2006.878429

  955. Control and regulation of skyrmionic topological charge in a novel synthetic antiferromagnetic nanostructure,
    Bin Gong, Chenhuinan Wei, Han Yang, Ziyang Yu, Luowen Wang, Lun Xiong, Rui Xiong, Zhihong Lu, Yue Zhang, and Qingbo Liu,
    Nanoscale, 15, 5257-5264 (Mar 2023). doi: 10.1039/D2NR06498G

  956. Electric field induced magnetization reversal in magnet/insulator nanoheterostructure,
    Qihua Gong, Min Yi, and Bai-Xiang Xu,
    International Journal of Smart and Nano Materials, 11, 298-309 (Jul 2020). doi: 10.1080/19475411.2020.1815132

  957. Vorticity of magnetic vortices controlled by exchange bias and shape anisotropy in polygonal nanomagnets,
    Renjie Gong, Xiangyu Meng, Yong Wang, Junqin Li, Jiefeng Cao, and Renzhong Tai,
    Journal of Magnetism and Magnetic Materials, 539, 168334 (5 pages) (Dec 2021). doi: 10.1016/j.jmmm.2021.168334

  958. Artificial single skyrmion and biskyrmion states achieved in magnetic nanodot pairs by micromagnetic simulation,
    Renjie Gong, Yong Wang, Junqin Li, Jiefeng Cao, Rui Yu, Yamei Wang, and Renzhong Tai,
    Journal of Magnetism and Magnetic Materials, 571, 170565 (5 pages) (Apr 2023). doi: 10.1016/j.jmmm.2023.170565

  959. Interfacial effect on the reverse of magnetization and ultrafast demagnetization in Co/Ni bilayers with perpendicular magnetic anisotropy,
    Zi-Zhao Gong, Wei Zhang, Wei He, Xiang-Qun Zhang, Yong Liu, and Zhao-Hua Cheng,
    Chinese Physics B, 27, 057501 (5 pages) (Apr 2018). doi: 10.1088/1674-1056/27/5/057501

  960. Long range ordering in self-assembled Ni arrays on patterned Si,
    D.C. Gonzalez, M.E. Kiziroglou, X. Li, A.A. Zhukov, H. Fangohr, P.A.J. de Groot, P.N. Barttlet, and C.H. de Groot,
    Journal of Magnetism and Magnetic Materials, 316, e78-e81 (Sep 2007). doi: 10.1016/j.jmmm.2007.02.059

  961. Magnetic properties of diamond shaped Ni80Fe20 nanomagnets,
    S. Goolaup, A.O. Adeyeye, and N. Singh,
    Journal of Physics D: Applied Physics, 38, 2749-2754 (Aug 2005). doi: 10.1088/0022-3727/38/16/001

  962. Magnetization reversal in diamond-shaped pseudo-spin-valve nanomagnets,
    S. Goolaup, A.O. Adeyeye, and N. Singh,
    Journal of Applied Physics, 98, 084318 (8 pages) (Oct 2005). doi: 10.1063/1.2108150

  963. Magnetization reversal mechanisms in diamond-shaped Co nanomagnets,
    S. Goolaup, A.O. Adeyeye, and N. Singh,
    Physical Review B, 73, 104444 (8 pages) (Mar 2006). doi: 10.1103/PhysRevB.73.104444

  964. Dependence of pinning on domain wall spin structure and notch geometry,
    S. Goolaup, S.C. Low, M. Chandra Sekhar, and W.S. Lew,
    Journal of Physics: Conference Series, 266, 012079 (6 pages) (Jan 2011). doi: 10.1088/1742-6596/266/1/012079

  965. Influence of internal geometry on magnetization reversal in asymmetric permalloy rings,
    D.B. Gopman, Y.P. Kabanov, J. Cui, C.S. Lynch, and R.D. Shull,
    Applied Physics Letters, 109, 082407 (4 pages) (Aug 2016). doi: 10.1063/1.4961881

  966. Sandwiched CoFe2O4/SrFe11.5Al0.5O19/CoFe2O4 nanoparticles with exchange-coupling effect,
    Evgeny A. Gorbachev, Lev A. Trusov, Anton D. Kovalenko, Anatoly V. Morozov, and Pavel E. Kazin,
    Nanoscale, 13, 18340-18348 (Nov 2021). doi: 10.1039/D1NR05491K

  967. Nanoceramics of metastable ε-Fe2O3: Effect of sintering on the magnetic properties and sub-terahertz electron resonance,
    Evgeny A. Gorbachev, Liudmila N. Alyabyeva, Miroslav V. Soshnikov, Vasily A. Lebedev, Anatolii V. Morozov, Ekaterina S. Kozlyakova, Asmaa Ahmed, Artem A. Eliseev, and Lev A. Trusov,
    Materials Horizons, 10, 3631-3642 (Aug 2023). doi: 10.1039/D3MH00626C

  968. Simulation of ferromagnetic resonance in a rectangular microstrip,
    R.V. Gorev, V.L. Mironov, and E.V. Skorohodov,
    Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 10, 298-301 (May 2016). doi: 10.1134/S1027451016020087

  969. Ferromagnetic resonance in interacting magnetic microstrips,
    R.V. Gorev, E.V. Skorokhodov, and V.L. Mironov,
    Physics of the Solid State, 58, 2212-2217 (Nov 2016). doi: 10.1134/S1063783416110111

  970. Ferromagnetic resonance of a magnetostatically stabilized domain wall in a nanowire-nanoparticle planar system,
    R.V. Gorev and V.L. Mironov,
    Technical Physics Letters, 43, 254-257 (Apr 2017). doi: 10.1134/S1063785017030075

  971. Localized spin-wave resonance modes of ferromagnetic microstrips in the field of a magnetic probe,
    R.V. Gorev and V.L. Mironov,
    Physics of the Solid State, 59, 2174-2178 (Nov 2017). doi: 10.1134/S1063783417110117

  972. Ferromagnetic resonance in square lattices of planar magnetic cross-shaped elements,
    R.V. Gorev, M.V. Sapozhnikov, and V.L. Mironov,
    Physics of the Solid State, 60, 2218-2221 (Nov 2018). doi: 10.1134/S1063783418110070

  973. Micromagnetic simulation of the magnetoelastic effect in submicron structures,
    R.V. Gorev and O.G. Udalov,
    Physics of the Solid State, 61, 1563-1571 (Sep 2019). doi: 10.1134/S1063783419090087

  974. Simulation of the interaction of a magnetic resonance force microscope probe with a ferromagnetic sample,
    R.V. Gorev, E.V. Skorokhodov, and V.L. Mironov,
    Technical Physics, 64, 1556-1559 (Nov 2019). doi: 10.1134/S1063784219110112

  975. Modeling of forced oscillations of magnetization in a system of three ferromagnetic nanodisks,
    R.V. Gorev, E.V. Skorokhodov, and V.L. Mironov,
    Physics of the Solid State, 62, 1513-1517 (Sep 2020). doi: 10.1134/S1063783420090085

  976. 3D analytical model of skyrmion-like structures in an antiferromagnet with DMI,
    Oksana Yu. Gorobets and Yuri I. Gorobets,
    Journal of Magnetism and Magnetic Materials, 507, 166800 (13 pages) (Aug 2020). doi: 10.1016/j.jmmm.2020.166800

  977. Current-driven antivortex core resonance measured by the rectifying effect,
    Minori Goto and Yukio Nozaki,
    AIP Advances, 6, 025313 (6 pages) (Feb 2016). doi: 10.1063/1.4941360

  978. Asymmetric magnetization reversal in dipolarly coupled spin valve structures with perpendicular magnetic anisotropy,
    M. Gottwald, M. Hehn, D. Lacour, T. Hauet, F. Montaigne, S. Mangin, P. Fischer, M.-Y. Im, and A. Berger,
    Physical Review B, 85, 064403 (6 pages) (Feb 2012). doi: 10.1103/PhysRevB.85.064403

  979. Domain-wall flexing instability and propagation in thin ferromagnetic films,
    C. Gourdon, L. Thevenard, S. Haghgoo, and A. Cēbers,
    Physical Review B, 88, 014428 (9 pages) (Jul 2013). doi: 10.1103/PhysRevB.88.014428

  980. A critical analysis of the feasibility of pure strain-actuated giant magnetostrictive nanoscale memories,
    P.G. Gowtham, G.E. Rowlands, and R.A. Buhrman,
    Journal of Applied Physics, 118, 183903 (13 pages) (Nov 2015). doi: 10.1063/1.4935521

  981. Perpendicular magnetisation from in-plane fields in nano-scaled antidot lattices,
    Joachim Gräfe, Felix Haering, Thomas Tietze, Patrick Audehm, Markus Weigand, Ulf Wiedwald, Paul Ziemann, Przemysław Gawroński, Gisela Schütz, and Eberhard J. Goering,
    Nanotechnology, 26, 225203 (6 pages) (May 2015). doi: 10.1088/0957-4484/26/22/225203

  982. Magnetic vortex nanodiscs enable remote magnetomechanical neural stimulation,
    Danijela Gregurec, Alexander W. Senko, Andrey Chuvilin, Pooja D. Reddy, Ashwin Sankararaman, Dekel Rosenfeld, Po-Han Chiang, Francisco Garcia, Ian Tafel, Georgios Varnavides, Eugenia Ciocan, and Polina Anikeeva,
    ACS Nano, 14, 8036-8045 (Jun 2020). doi: 10.1021/acsnano.0c00562

  983. Single-shot dynamics of spin-orbit torque and spin transfer torque switching in three-terminal magnetic tunnel junctions,
    Eva Grimaldi, Viola Krizakova, Giacomo Sala, Farrukh Yasin, Sébastien Couet, Gouri Sankar Kar, Kevin Garello, and Pietro Gambardella,
    Nature Nanotechnology, 15, 111-117 (Jan 2020). doi: 10.1038/s41565-019-0607-7

  984. Vortex chirality in an array of ferromagnetic dots,
    M. Grimsditch, P. Vavassori, V. Novosad, V. Metlushko, H. Shima, Y. Otani, and K. Fukamichi,
    Physical Review B, 65, 172419 (4 pages) (May 2002). doi: 10.1103/PhysRevB.65.172419

  985. The diffracted magneto-optic Kerr effect: What does it tell you?,
    M. Grimsditch and P. Vavassori,
    Journal of Physics: Condensed Matter, 16, R275-R294 (2004). doi: 10.1088/0953-8984/16/9/R01

  986. Magnetic normal modes in ferromagnetic nanoparticles: A dynamical matrix approach,
    M. Grimsditch, L. Giovannini, F. Montoncello, F. Nizzoli, Gary K. Leaf, and Hans G. Kaper,
    Physical Review B, 70, 054409 (7 pages) (Aug 2004). doi: 10.1103/PhysRevB.70.054409

  987. Magnetic normal modes in nano-particles,
    M. Grimsditch, L. Giovannini, F. Montoncello, F. Nizzoli, G. Leaf, H. Kaper, and D. Karpeev,
    Physica B: Condensed Matter, 354, 266-270 (Dec 2004). doi: 10.1016/j.physb.2004.09.061

  988. Spin-transfer-induced domain wall motion in a spin valve,
    J. Grollier, P. Boulenc, V. Cros, A. Hamzić, A. Vaurès, A. Fert, and G. Faini,
    Journal of Applied Physics, 95, 6777-6779 (Jun 2004). doi: 10.1063/1.1687293

  989. Geometrical multilayers: Coercivity in magnetic 3-D nanostructures,
    P.A.J. de Groot, A.A. Zhukov, R. Boardman, G. Bordignon, H. Fangohr, and P.N. Bartlett,
    Journal of Magnetism and Magnetic Materials, 310, e846-e848 (Mar 2007). doi: 10.1016/j.jmmm.2006.10.853

  990. Magnetic domain patterns in Co2MnGe Heusler nanostripes,
    K. Gross, P. Szary, O. Petracic, F. Brüssing, K. Westerholt, and H. Zabel,
    Physical Review B, 84, 054456 (8 pages) (Aug 2011). doi: 10.1103/PhysRevB.84.054456

  991. Domain wall dynamics of periodic magnetic domain patterns in Co2MnGe-Heusler microstripes,
    K. Gross, K. Westerholt, and H. Zabel,
    New Journal of Physics, 18, 033007 (9 pages) (Mar 2016). doi: 10.1088/1367-2630/18/3/033007

  992. Magnetologic devices fabricated by nanostencil lithography,
    L. Gross, R.R. Schlittler, G. Meyer, and R. Allenspach,
    Nanotechnology, 21, 325301 (6 pages) (Jul 2010). doi: 10.1088/0957-4484/21/32/325301

  993. Micromagnetic studies of cobalt microbars fabricated by nanoimprint lithography and electrodeposition,
    Darko Grujicic and Batric Pesic,
    Journal of Magnetism and Magnetic Materials, 285, 303-313 (Jan 2005). doi: 10.1016/j.jmmm.2004.08.003

  994. Micromagnetic studies of nickel microbars fabricated by nanoimprint lithography and electrodeposition,
    Darko Grujicic and Batric Pesic,
    Journal of Magnetism and Magnetic Materials, 288, 196-204 (Mar 2005). doi: 10.1016/j.jmmm.2004.09.006

  995. Micromagnetic studies of iron microbars prepared by nanoimprint lithography and electrodeposition,
    D. Grujicic and B. Pesic,
    Thin Solid Films, 485, 218-223 (Aug 2005). doi: 10.1016/j.tsf.2005.03.042

  996. The nanofabrication and transport properties of ferromagnetic metal nanocontacts,
    C. Gu, P. Xu, H. Yang, K. Xia, J. Li, and Y. Zhang,
    Microelectronic Engineering, 87, 1603-1606 (May 2010). doi: 10.1016/j.mee.2009.10.048

  997. Shape-manipulated spin-wave eigenmodes of magnetic nanoelements,
    Zhang Guang-Fu, Li Zhi-Xiong, Wang Xi-Guang, Nie Yao-Zhuang, and Guo Guang-Hua,
    Chinese Physics B, 24, 097503 (5 pages) (Jul 2015). doi: 10.1088/1674-1056/24/9/097503

  998. Magnetic properties of submicron circular Permalloy dots,
    Gianluca Gubbiotti, Giovanni Carlotti, Fabrizio Nizzoli, Roberto Zivieri, Takuya Okuno, and Teruya Shinjo,
    IEEE Transactions on Magnetics, 38, 2532-2535 (Sep 2002). doi: 10.1109/TMAG.2002.801920

  999. Spin-wave spectra in nanometric elliptical dots arrays,
    Gianluca Gubbiotti, Olga Kazakova, Giovanni Carlotti, Maj Hanson, and Paolo Vavassori,
    IEEE Transactions on Magnetics, 39, 2750-2752 (Sep 2003). doi: 10.1109/TMAG.2003.815588

  1000. Asymmetry in the static and dynamic magnetic properties of a weak exchange spring trilayer,
    G. Gubbiotti, G. Carlotti, J. Weston, G. Zangari, D.C. Crew, and R.L. Stamps,
    Journal of Magnetism and Magnetic Materials, 286, 479-483 (Feb 2005). doi: 10.1016/j.jmmm.2004.09.140

  1001. Spin dynamics in thin nanometric elliptical Permalloy dots: A Brillouin light scattering investigation as a function of dot eccentricity,
    G. Gubbiotti, G. Carlotti, T. Okuno, M. Grimsditch, L. Giovannini, F. Montoncello, and F. Nizzoli,
    Physical Review B, 72, 184419 (8 pages) (Nov 2005). doi: 10.1103/PhysRevB.72.184419

  1002. Normal mode splitting in interacting arrays of cylindrical permalloy dots,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Carlotti, and T. Okuno,
    Journal of Applied Physics, 99, 08C701 (3 pages) (Apr 2006). doi: 10.1063/1.2150806

  1003. Field dependence of spin excitations in NiFe/Cu/NiFe trilayered circular dots,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Carlotti, and T. Okuno,
    Physical Review B, 73, 144430 (6 pages) (Apr 2006). doi: 10.1103/PhysRevB.73.144430

  1004. Splitting of spin excitations in nanometric rings induced by a magnetic field,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Carlotti, H. Tanigawa, T. Ono, L. Giovannini, F. Montoncello, and F. Nizzoli,
    Physical Review Letters, 97, 247203 (4 pages) (Dec 2006). doi: 10.1103/PhysRevLett.97.247203

  1005. Effect of eccentricity on the spin-wave spectrum of NiFe/Cu/NiFe pillars with elliptical cross section,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Socino, G. Carlotti, and T. Ono,
    Journal of Applied Physics, 101, 09F502 (3 pages) (May 2007). doi: 10.1063/1.2710210

  1006. Spin wave eigenmodes of square permalloy dots studied by Brillouin light scattering,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Carlotti, A.O. Adeyeye, S. Goolaup, N. Singh, and A.N. Slavin,
    Journal of Magnetism and Magnetic Materials, 316, e338-e341 (Sep 2007). doi: 10.1016/j.jmmm.2007.02.141

  1007. Field evolution of the magnetic normal modes in elongated permalloy nanometric rings,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Carlotti, M. Pasquale, N. Singh, S. Goolaup, and A.O. Adeyeye,
    Journal of Physics: Condensed Matter, 19, 406229 (12 pages) (Oct 2007). doi: 10.1088/0953-8984/19/40/406229

  1008. Spin dynamics of multilayered nanoelements with different shapes studied by Brillouin light scattering technique,
    G. Gubbiotti, M. Madami, S. Tacchi, G. Carlotti, H. Tanigawa, and T. Ono,
    Journal of Physics D: Applied Physics, 41, 134023 (6 pages) (Jun 2008). doi: 10.1088/0022-3727/41/13/134023

  1009. Collective spin waves in a bicomponent two-dimensional magnonic crystal,
    G. Gubbiotti, S. Tacchi, M. Madami, G. Carlotti, S. Jain, A.O. Adeyeye, and M.P. Kostylev,
    Applied Physics Letters, 100, 162407 (5 pages) (Apr 2012). doi: 10.1063/1.4704659

  1010. Magnetic normal modes of bicomponent permalloy/cobalt structures in the parallel and antiparallel ground state,
    G. Gubbiotti, P. Malagò, S. Fin, S. Tacchi, L. Giovannini, D. Bisero, M. Madami, G. Carlotti, J. Ding, A.O. Adeyeye, and R. Zivieri,
    Physical Review B, 90, 024419 (9 pages) (Jul 2014). doi: 10.1103/PhysRevB.90.024419

  1011. Angle-resolved spin wave band diagrams of square antidot lattices studied by Brillouin light scattering,
    G. Gubbiotti, F. Montoncello, S. Tacchi, M. Madami, G. Carlotti, L. Giovannini, J. Ding, and A.O. Adeyeye,
    Applied Physics Letters, 106, 262406 (5 pages) (Jul 2015). doi: 10.1063/1.4923271

  1012. Collective spin waves in arrays of permalloy nanowires with single-side periodically modulated width,
    G. Gubbiotti, L.L. Xiong, F. Montoncello, and A.O. Adeyeye,
    Applied Physics Letters, 111, 192403 (4 pages) (Nov 2017). doi: 10.1063/1.5006294

  1013. Spin wave dispersion and intensity correlation in width-modulated nanowire arrays: A Brillouin light scattering study,
    G. Gubbiotti, L.L. Xiong, F. Montoncello, L. Giovannini, and A.O. Adeyeye,
    Journal of Applied Physics, 124, 083903 (6 pages) (Aug 2018). doi: 10.1063/1.5047393

  1014. Switching methods in magnetic random access memory for low power applications,
    Han Guchang, Huang Jiancheng, Sim Cheow Hin, Michael Tran, and Lim Sze Ter,
    Journal of Physics D: Applied Physics, 48, 225001 (5 pages) (May 2015). doi: 10.1088/0022-3727/48/22/225001

  1015. Domain formation in arrays of square holes in an Fe film,
    I. Guedes, M. Grimsditch, V. Metlushko, P. Vavassori, R. Camley, B. Ilic, P. Neuzil, and R. Kumar,
    Physical Review B, 66, 014434 (9 pages) (Jul 2002). doi: 10.1103/PhysRevB.66.014434

  1016. Magnetization reversal in an Fe film with an array of elliptical holes on a square lattice,
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  1017. Micromagnetic simulation in hexagonal arrays of nanosized hollow nickel spheres,
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    IEEE Transactions on Magnetics, 52, 7100706 (6 pages) (Nov 2016). doi: 10.1109/TMAG.2016.2588464

  1018. Dipolar magnetic interaction effects in 2D hexagonal array of cobalt hollow-spheres,
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  1019. Dipolar magnetic interactions in 3×3 arrays of rectangular Ni nanopillars,
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  1020. FMR by micromagnetic simulation in modulated FeCo nanowires,
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    Journal of Superconductivity and Novel Magnetism, 35, 825-831 (Mar 2022). doi: 10.1007/s10948-021-06114-3

  1021. Programmable motion and separation of single magnetic particles on patterned magnetic surfaces,
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  1022. Parametric pumping of precession modes in ferromagnetic nanodisks,
    Feng Guo, Liubov M. Belova, and R.D. McMichael,
    Physical Review B, 89, 104422 (7 pages) (Mar 2014). doi: 10.1103/PhysRevB.89.104422

  1023. Nonlinear ferromagnetic resonance shift in submicron Permalloy ellipses,
    Feng Guo, Lyubov M. Belova, and Robert D. McMichael,
    Physical Review B, 91, 064426 (6 pages) (Feb 2015). doi: 10.1103/PhysRevB.91.064426

  1024. Transport modeling of Py film with antidot array,
    J. Guo and M.B.A. Jalil,
    Journal of Applied Physics, 93, 7450-7452 (May 2003). doi: 10.1063/1.1557364

  1025. Simulation of magnetic recording of periodic antidot array,
    Jie Guo and Mansoor Bin Abdul Jalil,
    Journal of Magnetism and Magnetic Materials, 272-276, 722-723 (May 2004). doi: 10.1016/j.jmmm.2003.11.264

  1026. Micromagnetic study of switching in ring-shaped spin valve structures,
    J. Guo and M.B.A. Jalil,
    IEEE Transactions on Magnetics, 40, 2122-2124 (Jul 2004). doi: 10.1109/TMAG.2004.832379

  1027. Effect of Gilbert damping term on the current induced magnetization switching of ring-shaped spin valve structures,
    J. Guo, M.B.A. Jalil, and S.G. Tan,
    IEEE Transactions on Magnetics, 43, 2923-2925 (Jun 2007). doi: 10.1109/TMAG.2007.892587

  1028. Current-induced magnetization reversal mechanisms of pseudospin valves with perpendicular anisotropy,
    J. Guo, M.B.A. Jalil, S. Bae, and S.G. Tan,
    Journal of Applied Physics, 102, 093902 (5 pages) (Nov 2007). doi: 10.1063/1.2803720

  1029. Current-induced magnetization excitation in a pseudo-spin-valve with in-plane anisotropy,
    Jie Guo, Mansoor Bin Abdul Jalil, and Seng Ghee Tan,
    Applied Physics Letters, 92, 182103 (3 pages) (May 2008). doi: 10.1063/1.2919734

  1030. Low switching current in a modified exchange-biased spin valve via antiferromagnetic spin transfer torque,
    J. Guo, M.B.A. Jalil, and S.G. Tan,
    Journal of Applied Physics, 109, 07C915 (3 pages) (Mar 2011). doi: 10.1063/1.3559481

  1031. A ferromagnetic skyrmion-based nano-oscillator with modified profile of Dzyaloshinskii-Moriya interaction,
    J.H. Guo, J. Xia, X.C. Zhang, Philip W.T. Pong, Y.M. Wu, H. Chen, W.S. Zhao, and Y. Zhou,
    Journal of Magnetism and Magnetic Materials, 496, 165912 (5 pages) (Feb 2020). doi: 10.1016/j.jmmm.2019.165912

  1032. A ferromagnetic skyrmion-based nano-oscillator with modified perpendicular magnetic anisotropy,
    J.H. Guo, J. Xia, X. Zhang, Philip W.T. Pong, and Y. Zhou,
    Physics Letters A, 392, 127157 (6 pages) (Mar 2021). doi: 10.1016/j.physleta.2021.127157

  1033. Dynamic properties of a ferromagnetic skyrmion in an in-plane magnetic field,
    J.H. Guo, Y. Hou, J. Xia, X. Zhang, Philip W.T. Pong, and Y. Zhou,
    Journal of Applied Physics, 131, 073901 (8 pages) (Feb 2022). doi: 10.1063/5.0078200

  1034. Elimination of the skyrmion Hall effect by tuning perpendicular magnetic anisotropy and spin polarization angle,
    J.H. Guo, Y. Hou, X. Zhang, Philip W.T. Pong, and Y. Zhou,
    Physics Letters A, 456, 128497 (7 pages) (Dec 2022). doi: 10.1016/j.physleta.2022.128497

  1035. Preparation and characterization of ring-shaped Co nanomaterials,
    L. Guo, F. Liang, N. Wang, D. Kong, S. Wang, L. He, C. Chen, X. Meng, and Z. Wu,
    Chemistry of Materials, 20, 5163-5168 (Jul 2008). doi: 10.1021/cm7025784

  1036. Size-specific magnetic configurations in electrodeposited epitaxial iron nanocuboids: From Landau pattern to vortex and single domain states,
    Shanshan Guo, Mara Henschel, Daniel Wolf, Darius Pohl, Axel Lubk, Thomas Blon, Volker Neu, and Karin Leistner,
    Nano Letters, 22, 4006-4012 (May 2022). doi: 10.1021/acs.nanolett.2c00607

  1037. Spontaneous formation of skyrmion structure in a hard magnetic film with low coercivity,
    Yingjian Guo, Minggang Zhu, Chenyao Zhu, Lele Zhang, Yachao Sun, Dongmin Zhang, and Wei Li,
    Materials Letters, 308, 131135 (4 pages) (Feb 2022). doi: 10.1016/j.matlet.2021.131135

  1038. Fabrication and magnetic properties of ferromagnetic Co50Fe50 nanorings,
    Zhengang Guo, Hongmei Qiu, and Lipeng Cao,
    Modern Physics Letters B, 28, 1450131 (8 pages) (Jun 2014). doi: 10.1142/S0217984914501310

  1039. Electric field control of the exchange spring effect in perpendicularly magnetized FePt/NiFe bilayers,
    Zhe Guo, Xiaofei Yang, Jiefang Deng, Baiqian Yan, Juanjuan Zheng, Jinjun Ding, Jiapu Li, Benpeng Zhu, Shi Chen, Jun Ou-Yang, and Yue Zhang,
    Journal of Alloys and Compounds, 687, 204-210 (Dec 2016). doi: 10.1016/j.jallcom.2016.06.093

  1040. Electric field-induced multi-jump magnetic switching,
    Zhe Guo, Xiaofei Yang, Baiqian Yan, Jun Ou-Yang, Benpeng Zhu, Shi Chen, and Yue Zhang,
    Journal of Alloys and Compounds, 703, 431-436 (May 2017). doi: 10.1016/j.jallcom.2017.02.011

  1041. Micromagnetic simulation of asymmetrical CoFe nanorings,
    Z.G. Guo, L.Q. Pan, H.M. Qiu, X.D. Zhao, and L.H. Yang,
    Advanced Materials Research, 538, 529-533 (Jun 2012). doi: 10.4028/www.scientific.net/AMR.538-541.529

  1042. Micromagnetic simulation of CoFe magnetic nanorings: Switching behavior in external magnetic field,
    Zhen Gang Guo, Li Qing Pan, Hong Mei Qiu, M. Yasir Rafique, and Shuai Zeng,
    Advanced Materials Research, 710, 80-84 (Jun 2013). doi: 10.4028/www.scientific.net/AMR.710.80

  1043. Magnonic control of the superconducting spin valve by magnetization reorientation in a helimagnet,
    N.A. Gusev, D.I. Dgheparov, N.G. Pugach, and V.I. Belotelov,
    Applied Physics Letters, 118, 232601 (6 pages) (Jun 2021). doi: 10.1063/5.0055457

  1044. Manipulation of the Dzyaloshinskii–Moriya interaction in Co/Pt multilayers with strain,
    N.S. Gusev, A.V. Sadovnikov, S.A. Nikitov, M.V. Sapozhnikov, and O.G. Udalov,
    Physical Review Letters, 124, 157202 (6 pages) (Apr 2020). doi: 10.1103/PhysRevLett.124.157202

  1045. Electrical detection of magnetic domain wall in Fe4N nanostrip by negative anisotropic magnetoresistance effect,
    Toshiki Gushi, Keita Ito, Soma Higashikozono, Fumiya Takata, Hirotaka Oosato, Yoshimasa Sugimoto, Kaoru Toko, Syuta Honda, and Takashi Suemasu,
    Journal of Applied Physics, 120, 113903 (5 pages) (Sep 2016). doi: 10.1063/1.4962721

  1046. Magnetization reversal due to vortex nucleation, displacement, and annihilation in submicron ferromagnetic dot arrays,
    K.Yu. Guslienko, V. Novosad, Y. Otani, H. Shima, and K. Fukamichi,
    Physical Review B, 65, 24414 (10 pages) (Dec 2001). doi: 10.1103/PhysRevB.65.024414

  1047. Eigenfrequencies of vortex state excitations in magnetic submicron-size disks,
    K.Yu. Guslienko, B.A. Ivanov, V. Novosad, Y. Otani, H. Shima, and K. Fukamichi,
    Journal of Applied Physics, 91, 8037-8039 (May 2002). doi: 10.1063/1.1450816

  1048. Vortex state stability in soft magnetic cylindrical nanodots,
    K.Y. Guslienko and V. Novosad,
    Journal of Applied Physics, 96, 4451-4455 (Oct 2004). doi: 10.1063/1.1793327

  1049. Dynamic origin of vortex core switching in soft magnetic nanodots,
    Konstantin Yu. Guslienko, Ki-Suk Lee, and Sang-Koog Kim,
    Physical Review Letters, 100, 27203 (4 pages) (Jan 2008). doi: 10.1103/PhysRevLett.100.027203

  1050. Dynamics of domain walls in soft magnetic nanostripes: Topological soliton approach,
    K.Y. Guslienko, J.-Y. Lee, and S.-K. Kim,
    IEEE Transactions on Magnetics, 44, 3079-3082 (Nov 2008). doi: 10.1109/TMAG.2008.2002775

  1051. Topological gauge field in nanomagnets: Spin-wave excitations over a slowly moving magnetization background,
    Konstantin Y. Guslienko, Gloria R. Aranda, and Julian M. Gonzalez,
    Physical Review B, 81, 014414 (6 pages) (Jan 2010). doi: 10.1103/PhysRevB.81.014414

  1052. Microwave absorption properties of permalloy nanodots in the vortex and quasi-uniform magnetization states,
    K.Y. Guslienko, G.N. Kakazei, Yu.V. Kobljanskyj, G.A. Melkov, V. Novosad, and A.N. Slavin,
    New Journal of Physics, 16, 063044 (10 pages) (Jun 2014). doi: 10.1088/1367-2630/16/6/063044

  1053. Exchange constant and domain wall width in (Ga,Mn)(As,P) films with self-organization of magnetic domains,
    S. Haghgoo, M. Cubukcu, H.J. von Bardeleben, L. Thevenard, A. Lemaître, and C. Gourdon,
    Physical Review B, 82, 41301 (4 pages) (Jul 2010). doi: 10.1103/PhysRevB.82.041301

  1054. Temperature in micromagnetism: Cell size and scaling effects of the stochastic Landau-Lifshitz equation,
    Marc Benjamin Hahn,
    Journal of Physics Communications, 3, 075009 (8 pages) (Jul 2019). doi: 10.1088/2399-6528/ab31e6

  1055. Polarization dependent scattering in cavity optomagnonics,
    J.A. Haigh, A. Nunnenkamp, and A.J. Ramsay,
    Physical Review Letters, 127, 143601 (6 pages) (Sep 2021). doi: 10.1103/PhysRevLett.127.143601

  1056. Estimating the spin diffusion length of semiconducting Indium Tin Oxide using Co/Indium Tin Oxide/Co spin valve junctions,
    A.M.H.R. Hakimi, N. Banerjee, A. Aziz, J.W.A. Robinson, and M.G. Blamire,
    Applied Physics Letters, 96, 102514 (3 pages) (Mar 2010). doi: 10.1063/1.3339882

  1057. Magnetic antivortex formation in pound-key-like nanostructures,
    Arabinda Haldar and Kristen S. Buchanan,
    Applied Physics Letters, 102, 112401 (4 pages) (Mar 2013). doi: 10.1063/1.4795521

  1058. Vortex chirality control in circular disks using dipole-coupled nanomagnets,
    Arabinda Haldar and A.O. Adeyeye,
    Applied Physics Letters, 106, 032404 (4 pages) (Jan 2015). doi: 10.1063/1.4906142

  1059. Deterministic control of magnetization dynamics in reconfigurable nanomagnetic networks for logic applications,
    Arabinda Haldar and Adekunle Olusola Adeyeye,
    ACS nano, 10, 1690-1698 (Jan 2016). doi: 10.1021/acsnano.5b07849

  1060. Artificial metamaterials for reprogrammable magnetic and microwave properties,
    Arabinda Haldar and Adekunle Olusola Adeyeye,
    Applied Physics Letters, 108, 022405 (5 pages) (Jan 2016). doi: 10.1063/1.4939852

  1061. A reconfigurable waveguide for energy-efficient transmission and local manipulation of information in a nanomagnetic device,
    Arabinda Haldar, Dheeraj Kumar, and Adekunle Olusola Adeyeye,
    Nature Nanotechnology, 11, 437-443 (Feb 2016). doi: 10.1038/nnano.2015.332

  1062. Bias field free tunability of microwave properties based on geometrically controlled isolated permalloy nanomagnets,
    Arabinda Haldar and Adekunle Olusola Adeyeye,
    Applied Physics Letters, 108, 162401 (5 pages) (Apr 2016). doi: 10.1063/1.4947092

  1063. Reconfigurable magnetic and microwave properties of a ferrimagnetic-type artificial crystal,
    Arabinda Haldar and Adekunle Olusola Adeyeye,
    Journal of Applied Physics, 123, 243901 (6 pages) (Jun 2018). doi: 10.1063/1.5032158

  1064. Rashba-type Dzyaloshinskii-Moriya interaction, perpendicular magnetic anisotropy, and skyrmion states at 2D materials/Co interfaces,
    Ali Hallal, Jinghua Liang, Fatima Ibrahim, Hongxin Yang, Albert Fert, and Mairbek Chshiev,
    Nano Letters, 21, 7138-7144 (Aug 2021). doi: 10.1021/acs.nanolett.1c01713

  1065. Magnetic domain-wall motion by propagating spin waves,
    D.S. Han, S.K. Kim, J.Y. Lee, S.J. Hermsdoerfer, H. Schultheiss, B. Leven, and B. Hillebrands,
    Applied Physics Letters, 94, 112502 (3 pages) (Mar 2009). doi: 10.1063/1.3098409

  1066. Wave modes of collective vortex gyration in dipolar-coupled-dot-array magnonic crystals,
    Dong-Soo Han, Andreas Vogel, Hyunsung Jung, Ki-Suk Lee, Markus Weigand, Hermann Stoll, Gisela Schütz, Peter Fischer, Guido Meier, and Sang-Koog Kim,
    Scientific Reports, 3, 2262 (7 pages) (Jul 2013). doi: 10.1038/srep02262

  1067. Perpendicular-bias-field control of coupled vortex oscillations in nanodot networks,
    Dong-Soo Han, Young-Jun Cho, Han-Byeol Jeong, and Sang-Koog Kim,
    Journal of Applied Physics, 117, 083910 (7 pages) (Feb 2015). doi: 10.1063/1.4913503

  1068. Asymmetric hysteresis for probing Dzyaloshinskii-Moriya interaction,
    Dong-Soo Han, Nam-Hui Kim, June-Seo Kim, Yuxiang Yin, Jung-Woo Koo, Jaehun Cho, Sukmock Lee, Mathias Kläui, Henk J.M. Swagten, Bert Koopmans, and Chun-Yeol You,
    Nano Letters, 16, 4438-4446 (Jun 2016). doi: 10.1021/acs.nanolett.6b01593

  1069. Perspectives of electric field controlled switching in perpendicular magnetic random access,
    Guchang Han, Hao Meng, Jiancheng Huang, Vinayak Bharat Naik, Cheow Hin Sim, Michael Tran, and Sze Ter Lim,
    IEEE Transactions on Magnetics, 51, 3400309 (9 pages) (Apr 2015). doi: 10.1109/TMAG.2014.2354452

  1070. Electric field assisted switching in magnetic random access memory,
    Guchang Han, Jiancheng Huang, Bingjin Chen, Sze Ter Lim, and Michael Tran,
    IEEE Transactions on Magnetics, 51, 3401207 (7 pages) (Nov 2015). doi: 10.1109/TMAG.2015.2439734

  1071. Self-biased differential dual spin valve readers for future magnetic recording,
    G.C. Han, C.C. Wang, J.J. Qiu, L. Wang, and P. Luo,
    IEEE Transactions on Magnetics, 48, 1770-1776 (May 2012). doi: 10.1109/TMAG.2011.2169946

  1072. Interaction effect on switching behaviors of paired “Pac-man” array,
    H. Han, Y.K. Hong, M.H. Park, B.C. Choi, S.H. Gee, J.F. Jabal, G. Abo, A. Lyle, B. Wong, and G.W. Donohoe,
    IEEE Transactions on Magnetics, 41, 4341-4343 (Nov 2005). doi: 10.1109/TMAG.2005.855289

  1073. Formation and annihilation of multi-antiskyrmion defects during skyrmion nucleation,
    L. Han, C. Song, and F. Pan,
    Journal of Applied Physics, 128, 183903 (9 pages) (Nov 2020). doi: 10.1063/5.0027351

  1074. Unusual negative permeability of single magnetic nanowire excited by the spin transfer torque effect,
    Mangui Han and Wu Zhou,
    Journal of Magnetism and Magnetic Materials, 457, 52-56 (Jul 2018). doi: 10.1016/j.jmmm.2018.02.031

  1075. Ultra high frequency properties of periodically ordered Fe nanowires,
    Mangui Han,
    Journal of Magnetism and Magnetic Materials, 527, 167704 (6 pages) (Jun 2021). doi: 10.1016/j.jmmm.2020.167704

  1076. Terahertz permeability of hard ferromagnetic L10-FePt alloy nanowire,
    Mangui Han,
    Nanotechnology, 34, 105703 (6 pages) (Dec 2022). doi: 10.1088/1361-6528/aca7cd

  1077. Microwave permeability of single cobalt nanotube studied by micromagnetics simulations and generalized Snoek’s law,
    ManGui Han, Wei Guo, and LongJiang Deng,
    Science China Technological Sciences, 57, 254-258 (Feb 2014). doi: 10.1007/s11431-014-5464-x

  1078. Hysteretic responses of skyrmion lattices to electric fields in magnetoelectric Cu2OSeO3,
    Myung-Geun Han, Fernando Camino, Pavel A. Vorobyev, Joseph Garlow, Rosanna Rov, Tilo Söhnel, Jan Seidel, Maxim Mostovoy, Oleg A. Tretiakov, and Yimei Zhu,
    Nano Letters, 23, 7143-7149 (Jul 2023). doi: 10.1021/acs.nanolett.3c02034

  1079. Domain wall structure transition during magnetization reversal process in magnetic nanowires,
    N. Han, G. Guo, G. Zhang, W. Song, and G. Men,
    Transactions of Nonferrous Metals Society of China, 17, 1034-1037 (Oct 2007). doi: 10.1016/S1003-6326(07)60221-0

  1080. Magnetization reversal for Ni nanowires studied by micromagnetic simulations,
    N. Han, G. Guo, L. Zhang, G. Zhang, and W. Song,
    Journal of Materials Science and Technology, 25, 151-154 (Mar 2009).

  1081. A novel zero-drift detection method for highly sensitive GMR biochips,
    S.-J. Han, L. Xu, R.J. Wilson, and S.X. Wang,
    IEEE Transactions on Magnetics, 42, 3560-3562 (Oct 2006). doi: 10.1109/TMAG.2006.879615

  1082. Influence of crystal orientation on magnetic properties of hcp Co nanowire arrays,
    X. Han, Q. Liu, J. Wang, S. Li, Y. Ren, R. Liu, and F. Li,
    Journal of Physics D: Applied Physics, 42, 095005 (5 pages) (May 2009). doi: 10.1088/0022-3727/42/9/095005

  1083. Micromagnetic simulation of the magnetic spectrum of two magnetostatic coupled ferromagnetic stripes,
    X.H. Han, R.L. Liu, Q.F. Liu, J.B. Wang, T. Wang, and F.S. Li,
    Physica B: Condensed Matter, 405, 1172-1175 (Feb 2010). doi: 10.1016/j.physb.2009.11.030

  1084. Magnetic switching instability of ultrathin magnetic films under crossing pulse fields with duration shorter than relaxation time,
    Y. Han, S. Lee, S. Kim, J. Lee, A. Kim, and J. Hong,
    physica status solidi (a), 204, 3979-3982 (Dec 2007). doi: 10.1002/pssa.200777144

  1085. A Moiré interference pattern formation of magnetic nanoparticles by rotational magnetic field controlled interfacial self-assembly,
    Yuexia Han, Fengguo Fan, PengWang, Dan Liu, Fengxia Hu, Pengfei Zhu, and Jianfei Sun,
    Applied Physics A, 128, 457 (8 pages) (May 2022). doi: 10.1007/s00339-022-05586-x

  1086. Strain-tunable skyrmions in two-dimensional monolayer Janus magnets,
    Yue-tong Han, Wei-xiao Ji, Pei-Ji Wang, Ping Li, and Chang-Wen Zhang,
    Nanoscale, 15, 6830-6837 (Apr 2023). doi: 10.1039/D2NR06870B

  1087. Steady-state skyrmion oscillations in a spin valve (SV) nanopillar based on hybrid polarizer: A skyrmion-based spin torque nano-oscillator (STNO),
    Anam Hanif, Arbab Abdur Rahim, and Husnul Maab,
    Journal of Magnetism and Magnetic Materials, 573, 170650 (8 pages) (May 2023). doi: 10.1016/j.jmmm.2023.170650

  1088. Vortex dynamics in a spin valve nanopillar having hybrid polarizer and magnetostatic coupling,
    Anam Hanif, Arbab Abdur Rahim, and Husnul Maab,
    Physica B: Condensed Matter, 668, 415203 (10 pages) (Nov 2023). doi: 10.1016/j.physb.2023.415203

  1089. Magnetic ground state of single and coupled Permalloy rectangles,
    S. Hankemeier, R. Frömter, N. Mikuszeit, D. Stickler, H. Stillrich, S. Pütter, E.Y. Vedmedenko, and H.P. Oepen,
    Physical Review Letters, 103, 147204 (4 pages) (Oct 2009). doi: 10.1103/PhysRevLett.103.147204

  1090. Controlling the properties of vortex domain walls via magnetic seeding fields,
    S. Hankemeier, A. Kobs, R. Frömter, and H.P. Oepen,
    Physical Review B, 82, 064414 (6 pages) (Aug 2010). doi: 10.1103/PhysRevB.82.064414

  1091. Magnetic domain structures in submicron-size particles of epitaxial Fe (001) films: Shape anisotropy and thickness dependence,
    M. Hanson, O. Kazakova, P. Blomqvist, R. Wäppling, and B. Nilsson,
    Physical Review B, 66, 144419 (9 pages) (Oct 2002). doi: 10.1103/PhysRevB.66.144419

  1092. A novel STT-MRAM design with electric-field-assisted synthetic anti-ferromagnetic free layer,
    Runzi Hao, Lei Wang, and Tai Min,
    IEEE Transactions on Magnetics, 55, 3400506 (6 pages) (Mar 2019). doi: 10.1109/TMAG.2018.2866939

  1093. Detection of magnetic state in a nanoscale ferromagnetic ring by using ballistic semiconductor two-dimensional electron gas,
    Masahiro Hara, Junya Shibata, Takashi Kimura, and Yoshichika Otani,
    Applied Physics Letters, 88, 082501 (3 pages) (Feb 2006). doi: 10.1063/1.2177358

  1094. Control of domain wall pinning by a switchable magnetic gate,
    M. Hara, J. Shibata, T. Kimura, and Y. Otani,
    Applied Physics Letters, 89, 192504 (3 pages) (Nov 2006). doi: 10.1063/1.2385224

  1095. Controlled depinning of domain walls in a ferromagnetic ring circuit,
    M. Hara, T. Kimura, and Y. Otani,
    Applied Physics Letters, 90, 242504 (3 pages) (Jun 2007). doi: 10.1063/1.2748339

  1096. Detection of paired domain walls in a ferromagnetic ring by a bend resistance measurement,
    Masahiro Hara, Takashi Kimura, and Yoshichika Otani,
    Physica E: Low-dimensional Systems and Nanostructures, 40, 1108-1110 (Mar 2008). doi: 10.1016/j.physe.2007.08.031

  1097. Intensity nonreciprocity reversal of spin wave in magnonic crystal by specific wavenumber excitation,
    Taiga Hara, Kenji Kasahara, and Takashi Manago,
    Journal of Physics D: Applied Physics, 55, 365001 (7 pages) (Jun 2022). doi: 10.1088/1361-6463/ac791b

  1098. Spin Seebeck mechanical force,
    Kazuya Harii, Yong-Jun Seo, Yasumasa Tsutsumi, Hiroyuki Chudo, Koichi Oyanagi, Mamoru Matsuo, Yuki Shiomi, Takahito Ono, Sadamichi Maekawa, and Eiji Saitoh,
    Nature Communications, 10, 2616 (5 pages) (Jun 2019). doi: 10.1038/s41467-019-10625-y

  1099. Vertically integrated nanowires on Si wafers and into circuits,
    Allison Harpel, Joseph Um, Aditya Dave, Yali Zhang, Nikita Mahjabeen, Yicong Chen, Rashaunda Henderson, Rhonda Franklin, and Bethanie J.H. Stadler,
    IEEE Transactions on Magnetics, 59, 3200505 (5 pages) (Mar 2023). doi: 10.1109/TMAG.2022.3218696

  1100. All-optical observation and reconstruction of spin wave dispersion,
    Yusuke Hashimoto, Shunsuke Daimon, Ryo Iguchi, Yasuyuki Oikawa, Ka Shen, Koji Sato, Davide Bossini, Yutaka Tabuchi, Takuya Satoh, Burkard Hillebrands, Gerrit E.W. Bauer, Tom H. Johansen, Andrei Kirilyuk, Theo Rasing, and Eiji Saitoh,
    Nature Communications, 8, 15859 (6 pages) (Jun 2017). doi: 10.1038/ncomms15859

  1101. Magnetization reversal in epitaxial Fe nanowires on GaAs(110),
    C. Hassel, F.M. Römer, R. Meckenstock, G. Dumpich, and J. Lindner,
    Physical Review B, 77, 224439 (5 pages) (Jun 2008). doi: 10.1103/PhysRevB.77.224439

  1102. Absence of weak electron localization in epitaxial Fe wires on GaAs(110),
    C. Hassel, F.M. Römer, G. Dumpich, and J. Lindner,
    Physical Review B, 79, 092417 (4 pages) (Mar 2009). doi: 10.1103/PhysRevB.79.092417

  1103. Resistance of domain walls created by means of a magnetic force microscope in transversally magnetized epitaxial Fe wires,
    C. Hassel, S. Stienen, F.M. Römer, R. Meckenstock, G. Dumpich, and J. Lindner,
    Applied Physics Letters, 95, 032504 (3 pages) (Jul 2009). doi: 10.1063/1.3187219

  1104. Domain wall resistance in epitaxial Fe wires,
    C. Hassel, F.M. Römer, N. Reckers, F. Kronast, G. Dumpich, and J. Lindner,
    Journal of Magnetism and Magnetic Materials, 323, 1027-1030 (Apr 2011). doi: 10.1016/j.jmmm.2010.12.012

  1105. Coupled oscillations of vortex cores confined in a ferromagnetic elliptical disk,
    Hiroshi Hata, Minori Goto, Akinobu Yamaguchi, Tomonori Sato, Yoshinobu Nakatani, and Yukio Nozaki,
    Physical Review B, 90, 104418 (14 pages) (Sep 2014). doi: 10.1103/PhysRevB.90.104418

  1106. Computer simulation of Lorentz electron micrographs of thin magnetic particles,
    Thomas Haug, Stephan Otto, Markus Schneider, and Josef Zweck,
    Ultramicroscopy, 96, 201-206 (Aug 2003). doi: 10.1016/S0304-3991(03)00008-1

  1107. Magnetic domain walls in T-shaped permalloy microstructures,
    T. Haug, C.H. Back, J. Raabe, S. Heun, and A. Locatelli,
    Applied Physics Letters, 86, 152503 (3 pages) (Apr 2005). doi: 10.1063/1.1897059

  1108. Study of domain wall propagation in FePt and FePd nanowires driven by sub-nanosecond pulse of magnetic field by micromagnetic simulation,
    Sulaiman Hawibowo, Candra Kurniawan, and Dede Djuhana,
    IOP Conference Series: Materials Science and Engineering, 553, 012017 (6 pages) (Nov 2019). doi: 10.1088/1757-899X/553/1/012017

  1109. Observation of the domain wall propagation in CoFe and CoFeB nanowires driven by sub-nanosecond magnetic pulse using micromagnetic simulation,
    S. Hawibowo, C. Kurniawan, and D. Djuhana,
    IOP Conference Series: Materials Science and Engineering, 763, 012066 (5 pages) (Apr 2020). doi: 10.1088/1757-899X/763/1/012066

  1110. Exquisitely balanced thermal sensitivity of the stochastic switching process in macroscopic ferromagnetic ring elements,
    T.J. Hayward, T.A. Moore, D.H.Y. Tse, J.A.C. Bland, F.J. Castaño, and C.A. Ross,
    Physical Review B, 72, 184430 (6 pages) (Nov 2005). doi: 10.1103/PhysRevB.72.184430

  1111. Switching behavior of individual pseudo-spin-valve ring structures,
    T.J. Hayward, J. Llandro, R.B. Balsod, J.A.C. Bland, D. Morecroft, F.J. Castaño, and C.A. Ross,
    Physical Review B, 74, 134405 (7 pages) (Oct 2006). doi: 10.1103/PhysRevB.74.134405

  1112. Measurement of variable magnetic reversal paths in electrically contacted pseudo-spin-valve rings,
    T.J. Hayward, J. Llandro, F.D.O. Schackert, D. Morecroft, R.B. Balsod, J.A.C. Bland, F.J. Castaño, and C.A. Ross,
    Journal of Physics D: Applied Physics, 40, 1273-1279 (Feb 2007). doi: 10.1088/0022-3727/40/5/S12

  1113. Direct imaging of domain-wall interactions in Ni80Fe20 planar nanowires,
    T.J. Hayward, M.T. Bryan, P.W. Fry, P.M. Fundi, M.R.J. Gibbs, D.A. Allwood, M.-Y. Im, and P. Fischer,
    Physical Review B, 81, 020410 (4 pages) (Jan 2010). doi: 10.1103/PhysRevB.81.020410

  1114. Pinning induced by inter-domain wall interactions in planar magnetic nanowires,
    T.J. Hayward, M.T. Bryan, P.W. Fry, P.M. Fundi, M.R.J. Gibbs, M.-Y. Im, P. Fischer, and D.A. Allwood,
    Applied Physics Letters, 96, 052502 (3 pages) (Feb 2010). doi: 10.1063/1.3275752

  1115. Design and characterization of a field-switchable nanomagnetic atom mirror,
    T.J. Hayward, A.D. West, K.J. Weatherill, P.J. Curran, P.W. Fry, P.M. Fundi, M.R.J. Gibbs, T. Schrefl, C.S. Adams, I.G. Hughes, S.J. Bending, and D.A. Allwood,
    Journal of Applied Physics, 108, 043906 (9 pages) (Aug 2010). doi: 10.1063/1.3466995

  1116. Influence of shape, size and volume fraction of phase on the magnetic properties of Nd2Fe14B/α″-Fe16N2 core-shell nanostructures magnets,
    Jia He, Chenchen Wang, Jiuping Fan, Yuhao Bai, and Xiaohong Xu,
    Journal of Magnetism and Magnetic Materials, 561, 169696 (8 pages) (Nov 2022). doi: 10.1016/j.jmmm.2022.169696

  1117. Observation of asymmetrical pinning of domain walls in notched Permalloy nanowires using electron holography,
    K. He, D.J. Smith, and M.R. McCartney,
    Applied Physics Letters, 95, 182507 (3 pages) (Nov 2009). doi: 10.1063/1.3261753

  1118. Effects of vortex chirality and shape anisotropy on magnetization reversal of Co nanorings,
    K. He, D.J. Smith, and M.R. McCartney,
    Journal of Applied Physics, 107, 09D307 (6 pages) (May 2010). doi: 10.1063/1.3358233

  1119. Effects of notches on the order of flux-closure state formation in bi-rings by micromagnetic simulation,
    S.T. He, S.Q. Chang, and H.G. Shi,
    Chinese Physics B, 20, 127503 (5 pages) (Dec 2011). doi: 10.1088/1674-1056/20/12/127503

  1120. Current-induced dynamics of multiple skyrmions with domain-wall pair and skyrmion-based majority gate design,
    Zhezhi He, Shaahin Angizi, and Deliang Fan,
    IEEE Magnetics Letters, 8, 4305705 (5 pages) (Mar 2017). doi: 10.1109/LMAG.2017.2689721

  1121. Energy efficient reconfigurable threshold logic circuit with spintronic devices,
    Zhezhi He and Deliang Fan,
    IEEE Transactions on Emerging Topics in Computing, 5, 223-237 (Apr 2017). doi: 10.1109/TETC.2016.2633966

  1122. Electrical spin injection into InN semiconductor nanowires,
    S. Heedt, C. Morgan, K. Weis, D.E. Bürgler, R. Calarco, H. Hardtdegen, D. Grützmacher, and T. Schäpers,
    Nano Letters, 12, 4437-4443 (Aug 2012). doi: 10.1021/nl301052g

  1123. 360° domain wall generation in the soft layer of magnetic tunnel junctions,
    M. Hehn, D. Lacour, F. Montaigne, J. Briones, R. Belkhou, S. El Moussaoui, F. Maccherozzi, and N. Rougemaille,
    Applied Physics Letters, 92, 072501 (3 pages) (Feb 2008). doi: 10.1063/1.2838455

  1124. Simulation of high k-vector spin wave excitation with periodic ferromagnetic strips,
    Florian Heimbach, Tobias Stückler, Haiming Yu, and Weisheng Zhao,
    Journal of Magnetism and Magnetic Materials, 450, 29-33 (Mar 2018). doi: 10.1016/j.jmmm.2017.09.062

  1125. Size dependence of intrinsic spin transfer switching current density in elliptical spin valves,
    R. Heindl, S.E. Russek, T.J. Silva, W.H. Rippard, J.A. Katine, and M.J. Carey,
    Applied Physics Letters, 92, 262504 (3 pages) (Jul 2008). doi: 10.1063/1.2953980

  1126. Hybrid FFT algorithm for fast demagnetization field calculations on non-equidistant magnetic layers,
    Paul Heistracher, Florian Bruckner, Claas Abert, Christoph Vogler, and Dieter Suess,
    Journal of Magnetism and Magnetic Materials, 503, 166592 (7 pages) (Jun 2020). doi: 10.1016/j.jmmm.2020.166592

  1127. Proposal for a micromagnetic standard problem: Domain wall pinning at phase boundaries,
    Paul Heistracher, Claas Abert, Florian Bruckner, Thomas Schrefl, and Dieter Suess,
    Journal of Magnetism and Magnetic Materials, 548, 168875 (8 pages) (Apr 2022). doi: 10.1016/j.jmmm.2021.168875

  1128. Heterobilayer moiré magnets: Moiré skyrmions and commensurate-incommensurate transitions,
    Kasra Hejazi, Zhu-Xi Luo, and Leon Balents,
    Physical Review B, 104, L100406 (5 pages) (Sep 2021). doi: 10.1103/PhysRevB.104.L100406

  1129. Experimental and computational analysis of magnetization reversal in (Nd,Dy)-Fe-B core shell sintered magnets,
    Tim Helbig, Konrad Loewe, Simon Sawatzki, Min Yi, Bai-Xiang Xu, and Oliver Gutfleisch,
    Acta Materialia, 127, 498-504 (Apr 2017). doi: 10.1016/j.actamat.2017.01.055

  1130. Quantized spin-wave modes in magnetic tunnel junction nanopillars,
    A. Helmer, S. Cornelissen, T. Devolder, J.-V. Kim, W. van Roy, L. Lagae, and C. Chappert,
    Physical Review B, 81, 94416 (16 pages) (Mar 2010). doi: 10.1103/PhysRevB.81.094416

  1131. Acoustic-domain resonance mode in magnetic closure-domain structures: A probe for domain-shape characteristics and domain-wall transformations,
    Claudia Hengst, Manfred Wolf, Rudolf Schäfer, Ludwig Schultz, and Jeffrey McCord,
    Physical Review B, 89, 214412 (6 pages) (Jun 2014). doi: 10.1103/PhysRevB.89.214412

  1132. Manipulation of magnetically labeled and unlabeled cells with mobile magnetic traps,
    T. Henighan, A. Chen, G. Vieira, A.J. Hauser, F.Y. Yang, J.J. Chalmers, and R. Sooryakumar,
    Biophysical Journal, 98, 412-417 (Feb 2010). doi: 10.1016/j.bpj.2009.10.036

  1133. Patterned magnetic traps for magnetophoretic assembly and actuation of microrotor pumps,
    T. Henighan, D. Giglio, A. Chen, G. Vieira, and R. Sooryakumar,
    Applied Physics Letters, 98, 103505 (3 pages) (Mar 2011). doi: 10.1063/1.3562037

  1134. Experimental comparison of ring and diamond shaped planar Hall effect bridge magnetic field sensors,
    Anders Dahl Henriksen, Giovanni Rizzi, and Mikkel Fougt Hansen,
    Journal of Applied Physics, 118, 103901 (8 pages) (Sep 2015). doi: 10.1063/1.4930068

  1135. Distortion of the Stoner-Wohlfarth astroid by a spin-polarized current,
    Y. Henry, S. Mangin, J. Cucchiara, J.A. Katine, and E.E. Fullerton,
    Physical Review B, 79, 214422 (7 pages) (Jun 2009). doi: 10.1103/PhysRevB.79.214422

  1136. Exchange-coupled suppression of vortex formation in permalloy nanodot chain arrays,
    S.C. Hernandez, J. Dou, C. Yu, M.J. Pechan, L. Folks, J.A. Katine, and M.J. Carey,
    Journal of Applied Physics, 105, 07C125 (3 pages) (Mar 2009). doi: 10.1063/1.3074782

  1137. Low frequency noise due to magnetic inhomogeneities in submicron FeCoB/MgO/FeCoB magnetic tunnel junctions,
    D. Herranz, A. Gomez-Ibarlucea, M. Schäfers, A. Lara, G. Reiss, and F.G. Aliev,
    Applied Physics Letters, 99, 062511 (3 pages) (Aug 2011). doi: 10.1063/1.3615798

  1138. Quantitative magnetic imaging at the nanometer scale by ballistic electron magnetic microscopy,
    Marie Hervé, Sylvain Tricot, Sophie Guézo, Gabriel Delhaye, Bruno Lépine, Philippe Schieffer, and Pascal Turban,
    Journal of Applied Physics, 113, 233909 (6 pages) (Jun 2013). doi: 10.1063/1.4811690

  1139. Nanoscale ferromagnetic rings fabricated by electron-beam lithography,
    L.J. Heyderman, C. David, M. Kläui, C.A.F. Vaz, and J.A.C. Bland,
    Journal of Applied Physics, 93, 10011-10013 (Jun 2003). doi: 10.1063/1.1577224

  1140. Arrays of nanoscale magnetic dots: Fabrication by x-ray interference lithography and characterization,
    L.J. Heyderman, H.H. Solak, C. David, D. Atkinson, R.P. Cowburn, and F. Nolting,
    Applied Physics Letters, 85, 4989-4991 (2004). doi: 10.1063/1.1821649

  1141. Magnetization reversal in cobalt antidot arrays,
    L.J. Heyderman, F. Nolting, D. Backes, S. Czekaj, L. Lopez-Diaz, M. Kläui, U. Rüdiger, C.A.F. Vaz, J.A.C. Bland, R.J. Matelon, U.G. Volkmann, and P. Fischer,
    Physical Review B, 73, 214429 (12 pages) (Jun 2006). doi: 10.1103/PhysRevB.73.214429

  1142. Magnetism in the Néel-skyrmion host GaV4S8 under pressure,
    T.J. Hicken, M.N. Wilson, S.J.R. Holt, R. Khassanov, M.R. Lees, R. Gupta, D. Das, G. Balakrishnan, and T. Lancaster,
    Physical Review B, 105, 134414 (8 pages) (Apr 2022). doi: 10.1103/PhysRevB.105.134414

  1143. Controlled domain wall nucleation and resulting magnetoresistance in Ni81Fe19 nanoconstrictions,
    M.C. Hickey, D. Atkinson, C.H. Marrows, and B.J. Hickey,
    Journal of Applied Physics, 103, 07D518 (3 pages) (Apr 2008). doi: 10.1063/1.2834713

  1144. Magnetic vortex structure for hollow Fe3O4 spherical submicron particles,
    Nobuhiko Hirano, Satoru Kobayashi, Eiji Nomura, Momoko Chiba, Hiroto Kasai, Zentaro Akase, Tetsuya Akashi, Akira Sugawara, and Hiroyuki Shinada,
    Applied Physics Letters, 119, 132401 (5 pages) (Sep 2021). doi: 10.1063/5.0060439

  1145. Effective computation resilience in high performance and distributed environments,
    Ladislav Hluchý, Giang Nguyen, Ján Astaloš, Viet Tran, Viera Šipková, and Binh Minh Nguyen,
    Computing and Informatics, 35, 1386-1415 (Dec 2016).

  1146. Reduced saturation magnetization in cobalt antidot thin films prepared by polyethylene oxide-assisted self-assembly of polystyrene nanospheres,
    Chi-Chih Ho, Tung-Wu Hsieh, Hsiang-Hsi Kung, Wen-Tau Juan, Keng-Hui Lin, and Wei-Li Lee,
    Applied Physics Letters, 96, 122504 (3 pages) (Mar 2010). doi: 10.1063/1.3371692

  1147. Field-driven single domain wall motion in ferromagnetic nanowires,
    L.D. Anh Ho, Minh-Tung Tran, Xuan-Huu Cao, Vinh-Ai Dao, Duc-The Ngo, and Duc-Quang Hoang,
    RSC Advances, 8, 14539-14551 (Apr 2018). doi: 10.1039/C8RA01597J

  1148. Field and current driven magnetic domain wall motion in disordered A1-FePt nanowires,
    Pin Ho, Jinshuo Zhang, Jean Anne Currivan-Incorvia, David C. Bono, and Caroline Ross,
    IEEE Magnetics Letters, 6, 3000104 (4 pages) (Jan 2015). doi: 10.1109/LMAG.2015.2392079

  1149. Domain configurations in Co/Pd and L10-FePt nanowire arrays with perpendicular magnetic anisotropy,
    Pin Ho, Kun-Hua Tu, Jinshuo Zhang, Congli Sun, Jingsheng Chen, George Liontos, Konstantinos Ntetsikas, Apostolos Avgeropoulos, Paul M. Voyles, and Caroline A. Ross,
    Nanoscale, 8, 5358-5367 (Feb 2016). doi: 10.1039/c5nr08865h

  1150. Exploring characteristics of the corner sections of a domain wall trap nanostructure with the two-field direction method,
    Vu Nhut-Minh Ho, Le Duc-Anh Ho, Minh-Tung Tran, Xuan-Huu Cao, Vinh-Ai Dao, Duy-Hien Tong, Duc-The Ngo, and Duc-Quang Hoang,
    RSC Advances, 8, 41828-41835 (Dec 2018). doi: 10.1039/C8RA08528E

  1151. The effect of edge-roughness of magnetic nanowires on the degree of asymmetry in transverse domain walls,
    Duc-Quang Hoang, Minh-Tung Tran, Xuan-Huu Cao, and Duc-The Ngo,
    RSC Advances, 7, 49188-49193 (Oct 2017). doi: 10.1039/C7RA08104A

  1152. Single domain wall propagation in 2D magnetic nano-traps under field pulses,
    Duc-Quang Hoang, Xuan-Huu Cao, Hoai-Thuong Nguyen, and Vinh-Ai Dao,
    Journal of the Physical Society of Japan, 89, 094802 (8 pages) (Sep 2020). doi: 10.7566/jpsj.89.094802

  1153. Creation and propagation of a single magnetic domain wall in 2D nanotraps with a square injection pad,
    Duc-Quang Hoang, Xuan-Huu Cao, Hoai-Thuong Nguyen, and Vinh-Ai Dao,
    Nanotechnology, 32, 095703 (9 pages) (Dec 2020). doi: 10.1088/1361-6528/abc77e

  1154. Edge defects inducing asymmetric transverse domain walls created in Ni80Fe20 nanowires,
    Duc-Quang Hoang and Xuan-Huu Cao,
    Journal of Physics D: Applied Physics, 55, 075002 (9 pages) (Nov 2021). doi: 10.1088/1361-6463/ac32ff

  1155. Suppression of stochastic pinning in magnetic nanowire devices using “virtual” domain walls,
    M.P.P. Hodges, M.T. Bryan, P.W. Fry, M.-Y. Im, P. Fischer, and T.J. Hayward,
    Journal of Applied Physics, 116, 123914 (6 pages) (Sep 2014). doi: 10.1063/1.4896356

  1156. Model for a collimated spin-wave beam generated by a single-layer spin torque nanocontact,
    M.A. Hoefer, T.J. Silva, and M.D. Stiles,
    Physical Review B, 77, 144401 (8 pages) (Apr 2008). doi: 10.1103/PhysRevB.77.144401

  1157. Enhanced pinning of superconducting vortices by magnetic vortices,
    A. Hoffmann, L. Fumagalli, N. Jahedi, J.C. Sautner, J.E. Pearson, G. Mihajlović, and V. Metlushko,
    Physical Review B, 77, 060506 (4 pages) (Feb 2008). doi: 10.1103/PhysRevB.77.060506

  1158. Single domain and vortex state in ferromagnetic circular nanodots,
    H. Hoffmann and F. Steinbauer,
    Journal of Applied Physics, 92, 5463-5467 (Nov 2002). doi: 10.1063/1.1510559

  1159. Micromagnetic simulations of a dual-injector spin transfer torque operated spin logic,
    V. Höink, J.W. Lau, and W.F. Egelhoff,
    Applied Physics Letters, 96, 142508 (3 pages) (Apr 2010). doi: 10.1063/1.3373588

  1160. Statics and fast dynamics of nanomagnets with vortex structure,
    R. Höllinger, A. Killinger, and U. Krey,
    Journal of Magnetism and Magnetic Materials, 261, 178-189 (Apr 2003). doi: 10.1016/S0304-8853(02)01471-3

  1161. Magnetic vortex stability in Ni80Fe20 split rings,
    S.N. Holmes, J.H. Lee, B. Hong, M.D. Mascaro, D. Anderson, G.A.C. Jones, C.A. Ross, and C.H.W. Barnes,
    Journal of Applied Physics, 113, 044508 (7 pages) (Jan 2013). doi: 10.1063/1.4789316

  1162. Magnetoresistance of fully epitaxial MnAs/GaAs lateral spin valves,
    M. Holub, D. Saha, and P. Bhattacharya,
    Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures, 25, 1004-1008 (May 2007). doi: 10.1116/1.2715991

  1163. Tailored domain wall charges by individually set in-plane magnetic domains for magnetic field landscape design,
    Dennis Holzinger, Norbert Zingsem, Iris Koch, Alexander Gaul, Manuel Fohler, Christoph Schmidt, and Arno Ehresmann,
    Journal of Applied Physics, 114, 013908 (5 pages) (Jul 2013). doi: 10.1063/1.4812576

  1164. Design and fabrication of SU8 encapsulated digital magnetic carriers for high throughput biological assays,
    B. Hong, T.J. Hayward, J.R. Jeong, J.F.K. Cooper, J.J. Palfreyman, T. Mitrelias, A. Ionescu, J.A.C. Bland, and C.H.W. Barnes,
    Journal of Applied Physics, 105, 034701 (6 pages) (Feb 2009). doi: 10.1063/1.3075837

  1165. Double vortex interaction in micron-sized elliptical Ni80Fe20 elements studied by real-time Kerr microscopy,
    B. Hong, T.J. Hayward, C.H.W. Barnes, and J.R. Jeong,
    IEEE Transactions on Magnetics, 45, 2511-2514 (Jun 2009). doi: 10.1109/TMAG.2009.2018680

  1166. A dual magnetic tunnel junction-based neuromorphic device,
    Jeongmin Hong, Xin Li, Nuo Xu, Hong Chen, Stefano Cabrini, Sakhrat Khizroev, Jeffrey Bokor, and Long You,
    Advanced Intelligent Systems, 2, 2000143 (8 pages) (Dec 2020). doi: 10.1002/aisy.202000143

  1167. Micromagnetic simulation of magnetization reversal process using magnetic force microscope image,
    Y. Hong, L.Z. Zhao, G. Wang, Z.W. Liu, and D.C. Zeng,
    IEEE Transactions on Magnetics, 51, 7100304 (4 pages) (Nov 2015). doi: 10.1109/TMAG.2015.2437416

  1168. Influencing mechanisms of atomic diffusion and compositional distribution on the magnetic anisotropy of Cr/SmCo/(Cu)/Cr thin films,
    Y. Hong, Z.G. Qiu, Z.G. Zheng, G. Wang, H.Y. Yu, D.Y. Chen, G.B. Han, D.C. Zeng, and J.P. Liu,
    Acta Materialia, 164, 627-635 (Feb 2019). doi: 10.1016/j.actamat.2018.11.005

  1169. Micromagnetic simulation of the effect of grain boundaries and secondary phases on the magnetic properties and recoil loops of hot-deformed NdFeB magnets,
    Yuan Hong, Gang Wang, Nora M. Dempsey, Dominique Givord, and Dechang Zeng,
    Journal of Magnetism and Magnetic Materials, 491, 165328 (7 pages) (May 2019). doi: 10.1016/j.jmmm.2019.165328

  1170. Effects of laminated soft layer on magnetization reversal of exchange coupled composite media,
    H.-C. Hou, M.-S. Lin, J.-W. Liao, T.-L. Wu, C.-H. Lai, R.-Z. Chen, J.-L. Lee, H.-J. Lin, F.-H. Chang, and J.-S. Yang,
    Journal of Applied Physics, 105, 07B729 (3 pages) (Mar 2009). doi: 10.1063/1.3075557

  1171. Observation of various and spontaneous magnetic skyrmionic bubbles at room temperature in a frustrated kagome magnet with uniaxial magnetic anisotropy,
    Zhipeng Hou, Weijun Ren, Bei Ding, Guizhou Xu, Yue Wang, Bing Yang, Qiang Zhang, Ying Zhang, Enke Liu, Feng Xu, Wenhong Wang, Guangheng Wu, Xixiang Zhang, Baogen Shen, and Zhidong Zhang,
    Advanced Materials, 29, 1701144 (8 pages) (Aug 2017). doi: 10.1002/adma.201701144

  1172. Manipulating the topology of nanoscale skyrmion bubbles by spatially geometric confinement,
    Zhipeng Hou, Qiang Zhang, Guizhou Xu, Senfu Zhang, Chen Gong, Bei Ding, Hang Li, Feng Xu, Yuan Yao, Enke Liu, Guangheng Wu, Xi-xiang Zhang, and Wenhong Wang,
    ACS Nano, 13, 922-929 (Jan 2019). doi: 10.1021/acsnano.8b09689

  1173. Emergence of room temperature stable skyrmionic bubbles in the rare earth based REMn2Ge2 (RE = Ce, Pr, and Nd) magnets,
    Zhipeng Hou, Lingwei Li, Chen Liu, Xingsen Gao, Zhipan Ma, Guofu Zhou, Yong Peng, Mi Yan, Xi-xiang Zhang, and Junming Liu,
    Materials Today Physics, 17, 100341 (7 pages) (Mar 2021). doi: 10.1016/j.mtphys.2021.100341

  1174. Current-induced reversible split of elliptically distorted skyrmions in geometrically confined Fe3Sn2 nanotrack,
    Zhipeng Hou, Qingping Wang, Qiang Zhang, Senfu Zhang, Chenhui Zhang, Guofu Zhou, Xingsen Gao, Guoping Zhao, Xixiang Zhang, Wenhong Wang, and Junming Liu,
    Advanced Science, 10, 2206106 (8 pages) (Jan 2023). doi: 10.1002/advs.202206106

  1175. Demagnetizing fields in all-optical switching,
    F. Hoveyda, E. Hohenstein, R. Judge, and S. Smadici,
    Journal of Physics: Condensed Matter, 30, 035801 (6 pages) (Dec 2017). doi: 10.1088/1361-648X/aa9e39

  1176. Deterministic and stochastic trajectories of magnetic particles: Mapping energy landscapes for technology and biology,
    Marci L. Howdyshell, Michael Prikockis, Stephanie Lauback, Gregory B. Vieira, Kalpesh Mahajan, Jessica Winter, and Ratnasingham Sooryakumar,
    IEEE Transactions on Magnetics, 50, 2303507 (7 pages) (Nov 2014). doi: 10.1109/TMAG.2014.2323959

  1177. Current-induced skyrmion generation and dynamics in symmetric bilayers,
    A. Hrabec, J. Sampaio, M. Belmeguenai, I. Gross, R. Weil, S.M. Chérif, A. Stashkevich, V. Jacques, A. Thiaville, and S. Rohart,
    Nature Communications, 8, 15765 (6 pages) (Jun 2017). doi: 10.1038/ncomms15765

  1178. Effect of asymmetric shape on vortex control in permalloy rings,
    Chia-Jung Hsu, Chao-Hsien Huang, Wei-Kang Lin, Li-Hao Chan, Tian-Chiuan Wu, Jong-Ching Wu, and Lance Horng,
    IEEE Transactions on Magnetics, 50, 1400904 (4 pages) (Jan 2014). doi: 10.1109/TMAG.2013.2274726

  1179. Layered antiferromagnetic spin structures of expanded face-centered-tetragonal Mn(001) as an origin of exchange bias coupling to the magnetic Co layer,
    P.-J. Hsu, C.-I. Lu, Y.-H. Chu, B.-Y. Wang, C.-B. Wu, L.-J. Chen, S.-S. Wong, and M.-T. Lin,
    Physical Review B, 85, 174434 (5 pages) (May 2012). doi: 10.1103/PhysRevB.85.174434

  1180. Modification of ferromagnetic nanostripe dynamic behavior by edge defects,
    Bo Hu, Chunwang Zhao, and Yulian Li,
    Materials Research Express, 5, 036111 (7 pages) (Mar 2018). doi: 10.1088/2053-1591/aab72d

  1181. High frequency dynamics and magnetic anisotropy of bcc Co films grown on Si (001) substrate,
    Bo Hu, Wei He, and Zhao-hua Cheng,
    Materials Science and Engineering: B, 275, 115512 (5 pages) (Jan 2022). doi: 10.1016/j.mseb.2021.115512

  1182. Enhanced current-induced domain wall motion by tuning the cubic in-plane magnetic anisotropy,
    Bo Hu,
    Journal of Magnetism and Magnetic Materials, 554, 169297 (6 pages) (Jul 2022). doi: 10.1016/j.jmmm.2022.169297

  1183. Tunable magnon-magnon coupling mediated by in-plane magnetic anisotropy in synthetic antiferromagnets,
    Bo Hu and Wei He,
    Journal of Magnetism and Magnetic Materials, 565, 170283 (5 pages) (Jan 2023). doi: 10.1016/j.jmmm.2022.170283

  1184. Modulating the magnetization dynamic properties of zigzag magnetic nanowires by the four-fold magnetic anisotropy,
    Bo Hu, Zu-yao Sun, and Feng-quan Cui,
    Physica B: Condensed Matter, 661, 414930 (6 pages) (Jul 2023). doi: 10.1016/j.physb.2023.414930

  1185. Space and thickness influence on magnetization reversal in periodic cylinder shaped exchange spring,
    Chun-lian Hu, Yu-cheng Zhou, Leng Liao, and R.L. Stamps,
    Journal of Magnetism and Magnetic Materials, 386, 146-149 (Jul 2015). doi: 10.1016/j.jmmm.2015.03.073

  1186. Auto-oscillations for the coupling between breathing mode and chiral switching in magnetic skyrmions,
    Chenglong Hu, Lianze Ji, Rongzhi Zhao, Wenchao Chen, and Xuefeng Zhang,
    Journal of Physics D: Applied Physics, 54, 015005 (7 pages) (Oct 2020). doi: 10.1088/1361-6463/abaf27

  1187. A universal law for predicting the motion behaviors of skyrmions under spatially-varying strain field,
    Chenglong Hu, Rongzhi Zhao, Lianze Ji, Wenchao Chen, Sateesh Bandaru, and Xuefeng Zhang,
    Journal of Magnetism and Magnetic Materials, 513, 166954 (6 pages) (Nov 2020). doi: 10.1016/j.jmmm.2020.166954

  1188. Dzyaloshinskii-Moriya-interaction-like behavior in confined Permalloy nanostructures via coupled magnetic vortices,
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    Small, 19, 2207206 (10 pages) (Apr 2023). doi: 10.1002/smll.202207206

  1189. Transition of domain walls induced by current in defect permalloy nanowires,
    Chun-Lian Hu, Leng Liao, and Rui-Qiang Zhao,
    Journal of Magnetism and Magnetic Materials, 399, 94-96 (Feb 2016). doi: 10.1016/j.jmmm.2015.09.070

  1190. Voltage-controlled bimeron diode-like effect in nanoscale information channel,
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    Journal of Physics D: Applied Physics, 56, 085001 (9 pages) (Feb 2023). doi: 10.1088/1361-6463/acb219

  1191. Exchange-coupled Fe3O4/L10-FePt bilayer films by controlled oxidation of Fe/Pt multilayer,
    X. Hu, P. Wu, and J. Yuan,
    Thin Solid Films, 517, 2602-2605 (Feb 2009). doi: 10.1016/j.tsf.2008.10.040

  1192. Magnetically characterized molecular lubrication between biofunctionalized surfaces,
    Xinghao Hu, Sri Ramulu Torati, Jonghwan Yoon, Byeonghwa Lim, Kunwoo Kim, and CheolGi Kim,
    ACS Applied Materials & Interfaces, 10, 16177-16182 (Apr 2018). doi: 10.1021/acsami.8b00903

  1193. SPICE-only model for spin-transfer torque domain wall MTJ logic,
    Xuan Hu, Andrew Timm, Wesley H. Brigner, Jean Anne C. Incorvia, and Joseph S. Friedman,
    IEEE Transactions on Electron Devices, 66, 2817-2821 (Jun 2019). doi: 10.1109/TED.2019.2912756

  1194. Discontinuous properties of current-induced magnetic domain wall depinning,
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    Scientific Reports, 3, 3080 (7 pages) (Oct 2013). doi: 10.1038/srep03080

  1195. Trajectory and frequency of vortex gyration in a multi-nanocontact geometry,
    Li Hua-Nan, Liu Yan, Jia Min, and Du An,
    Chinese Physics B, 24, 047501 (5 pages) (Feb 2015). doi: 10.1088/1674-1056/24/4/047501

  1196. Study of one-side-flat edge on vortex in submicro-scaled Permalloy disks,
    C.-H. Huang, C.-T. Yang, K.-M. Wu, T.-C. Wu, J.-C. Wu, and L. Horng,
    IEEE Transactions on Magnetics, 46, 2264-2267 (Jun 2010). doi: 10.1109/TMAG.2010.2040595

  1197. Influence of asymmetric disks on control over the existence of vortex in submicrometer-scaled Permalloy disks,
    C.-H. Huang, K.-M. Wu, C.-Y. Wang, J.-C. Wu, and L. Horng,
    Journal of Applied Physics, 109, 07B913 (3 pages) (Apr 2011). doi: 10.1063/1.3566066

  1198. Study of vortex configuration and switching behavior in submicro-scaled asymmetric Permalloy ring,
    Chao Hsien Huang, Nian Jia Cheng, Feng Sheng Wu, Jong Ching Wu, and Lance Horng,
    IEEE Transactions on Magnetics, 48, 3648-3650 (Nov 2012). doi: 10.1109/TMAG.2012.2204044

  1199. Vortex annihilation in magnetic disks with different degrees of asymmetry,
    Chao-Hsien Huang, Kuo-Ming Wu, Jong-Ching Wu, and Lance Horng,
    Journal of Applied Physics, 113, 103905 (5 pages) (Mar 2013). doi: 10.1063/1.4795115

  1200. Influence of asymmetry of Kerr signal on vortex configuration in submicro-scaled permalloy disc array,
    Chao-Hsien Huang, Kuo-Ming Wu, Jong-Ching Wu, and Lance Horng,
    Journal of Physics D: Applied Physics, 46, 245001 (5 pages) (May 2013). doi: 10.1088/0022-3727/46/24/245001

  1201. Theoretical studies of magnetic domain phase diagrams from micromagnetic simulation,
    Dao-Jing Huang, Yi-Sheng Lai, and Yen-Hsun Su,
    Journal of Vacuum Science and Technology A, 41, 053414 (5 pages) (Aug 2023). doi: 10.1116/6.0002865

  1202. Initialization-free multilevel states driven by spin-orbit torque switching,
    Kuo-Feng Huang, Ding-Shuo Wang, Ming-Han Tsai, Hsiu-Hau Lin, and Chih-Huang Lai,
    Advanced Materials, 29, 1601575 (6 pages) (Jan 2017). doi: 10.1002/adma.201601575

  1203. Transient retrograde motion of spin wave driven skyrmions in magnetic nanotracks,
    Lin Huang, Gavin Burnell, and Christopher H. Marrows,
    Physical Review B, 107, 224418 (13 pages) (Jun 2023). doi: 10.1103/PhysRevB.107.224418

  1204. Excitation modes of twisted spin-waves in thick ferromagnetic nanodisks,
    Peiyuan Huang and Ruifang Wang,
    Journal of Magnetism and Magnetic Materials, 562, 169762 (5 pages) (Nov 2022). doi: 10.1016/j.jmmm.2022.169762

  1205. Stabilization and current-induced motion of antiskyrmion in the presence of anisotropic Dzyaloshinskii-Moriya interaction,
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    Physical Review B, 96, 144412 (9 pages) (Oct 2017). doi: 10.1103/PhysRevB.96.144412

  1206. Domain-wall depinning by controlling its configuration at notch,
    Sheng-Huang Huang and Chih-Huang Lai,
    Applied Physics Letters, 95, 032505 (3 pages) (Jul 2009). doi: 10.1063/1.3187530

  1207. Geometrical confinement effects on the magnetization and polarization response in resonant magneto-optic rotator waveguides,
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  1208. Electrodeposition of periodically nanostructured straight cobalt filament arrays,
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    The Journal of Physical Chemistry C, 113, 1694-1697 (Jan 2009). doi: 10.1021/jp807673h

  1209. Fabrication and magnetic properties of 100-nm-scaled permalloy nanotube arrays,
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    Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures, 30, 06FF07 (5 pages) (Oct 2012). doi: 10.1116/1.4762843

  1210. A spin-orbit torque ratchet at ferromagnet/antiferromagnet interface via exchange spring,
    Yu-Han Huang, Chao-Yao Yang, Chih-Wei Cheng, Albert Lee, Chih-Hsiang Tseng, Hao Wu, Quanjun Pan, Xiaoyu Che, Chih-Huang Lai, Kang-Lang Wang, Hong-Ji Lin, and Yuan-Chieh Tseng,
    Advanced Functional Materials, 32, 2111653 (8 pages) (Jan 2022). doi: 10.1002/adfm.202111653

  1211. Manipulating magnetoelectric energy landscape in multiferroics,
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  1212. Planar Hall effect in orthogonal submicrometer Co wires,
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    Journal of Applied Physics, 99, 08C508 (3 pages) (Apr 2006). doi: 10.1063/1.2165131

  1213. Determination of vortex chirality using planar Hall effect,
    Y.S. Huang, C.C. Wang, and A.O. Adeyeye,
    Journal of Applied Physics, 100, 013909 (4 pages) (Jul 2006). doi: 10.1063/1.2211327

  1214. Experimental observation of switching in ferromagnetic nanoscale double disks,
    M. Huber, J. Zweck, and D. Weiss,
    Physical Review B, 77, 54407 (6 pages) (Feb 2008). doi: 10.1103/PhysRevB.77.054407

  1215. Three-dimensional close-to-substrate trajectories of magnetic microparticles in dynamically changing magnetic field landscapes,
    Rico Huhnstock, Meike Reginka, Claudius Sonntag, Maximilian Merkel, Kristina Dingel, Bernhard Sick, Michael Vogel, and Arno Ehresmann,
    Scientific Reports, 12, 20890 (10 pages) (Dec 2022). doi: 10.1038/s41598-022-25391-z

  1216. Enhanced output performance in spin-valve bridge sensors by a compound nanostructure for ferromagnetic free layers,
    Yajuan Hui, Lei Liu, Hui Jiang, Kun Wang, Cheng Liu, and Fang Jin,
    Journal of Electronic Materials, 51, 3445-3452 (Jul 2022). doi: 10.1007/s11664-022-09629-0

  1217. Multi-phase field modeling and simulation of magnetically driven grain boundary migration in SmCo polycrystals,
    L. Huo, R. Schiedung, H. Li, G. Wang, Y. Hong, A. Grünebohm, and I. Steinbach,
    Journal of Physics D: Applied Physics, 56, 465003 (10 pages) (Aug 2023). doi: 10.1088/1361-6463/acedbb

  1218. Multiple low-energy excitation states in FeNi disks observed by broadband ferromagnetic resonance measurement,
    Y. Huo, C. Zhou, L. Sun, S.T. Chui, and Y.Z. Wu,
    Physical Review B, 94, 184421 (6 pages) (Nov 2016). doi: 10.1103/PhysRevB.94.184421

  1219. Reconfigurable magnetic domain wall pinning using vortex-generated magnetic fields,
    Aaron C.H. Hurst, Joshua A. Izaac, Fouzia Altaf, Vincent Baltz, and Peter J. Metaxas,
    Applied Physics Letters, 110, 182404 (5 pages) (May 2017). doi: 10.1063/1.4982237

  1220. Localized spin-wave modes in a triangular magnetic element studied by micro-focused Brillouin light scattering,
    S. Hwang, J.-H. Kwon, P. Grünberg, and B.K. Cho,
    Journal of Magnetism and Magnetic Materials, 437, 23-28 (Sep 2017). doi: 10.1016/j.jmmm.2017.04.049

  1221. Characteristics of parametric spin waves in rectangular magnonic blocks,
    S. Hwang, Seungha Yoon, B.R. Kim, S.H. Han, and B.K. Cho,
    Journal of Physics D: Applied Physics, 54, 365001 (8 pages) (Jun 2021). doi: 10.1088/1361-6463/ac0ad2

  1222. Optimization of magnetic fluid hyperthermia with respect to nanoparticle shape-related parameters: Case of magnetite ellipsoidal nanoparticles,
    Nicusor Iacob, Andrei Kuncser, Cezar Comanescu, Petru Palade, and Victor Kuncser,
    Journal of Nanoparticle Research, 22, 138 (10 pages) (May 2020). doi: 10.1007/s11051-020-04842-6

  1223. Real-time analysis of the spinmotive force due to domain wall motion,
    Jun’ichi Ieda, Sadamichi Maekawa, and Yuta Yamane,
    Journal of the Korean Physical Society, 62, 1802-1806 (Jun 2013). doi: 10.3938/jkps.62.1802

  1224. Tip-induced artifacts in magnetic force microscopy images,
    Óscar Iglesias-Freire, Jeffrey R. Bates, Yoichi Miyahara, Agustina Asenjo, and Peter H. Grütter,
    Applied Physics Letters, 102, 022417 (4 pages) (Jan 2013). doi: 10.1063/1.4776669

  1225. Domain configuration and magnetization switching in arrays of permalloy nanostripes,
    Ó Iglesias-Freire, Miriam Jaafar, L. Pérez, O. de Abril, M. Vázquez, and Agustina Asenjo,
    Journal of Magnetism and Magnetic Materials, 355, 152-157 (Apr 2014). doi: 10.1016/j.jmmm.2013.12.012

  1226. Spin configuration in isolated FeCoCu nanowires modulated in diameter,
    Óscar Iglesias-Freire, Cristina Bran, Eider Berganza, Ignacio Mínguez-Bacho, César Magén, Manuel Vázquez, and Agustina Asenjo,
    Nanotechnology, 26, 395702 (7 pages) (Sep 2015). doi: 10.1088/0957-4484/26/39/395702

  1227. Domain configurations in magnetic wire with transversal magnetic anisotropy,
    Tomohiro Ikeda, Chuang Ma, Ryoma Arai, Akimitsu Morisako, and Xiaoxi Liu,
    Transaction of the Magnetics Society of Japan Special Issues, 1, 10-13 (Jan 2017). doi: 10.20819/msjtmsj.17TR103

  1228. Domain-wall depinning assisted by pure spin currents,
    D. Ilgaz, J. Nievendick, L. Heyne, D. Backes, J. Rhensius, T.A. Moore, M.Á. Niño, A. Locatelli, T.O. Menteş, A. v. Schmidsfeld, A. v. Bieren, S. Krzyk, L.J. Heyderman, and M. Kläui,
    Physical Review Letters, 105, 76601 (4 pages) (Aug 2010). doi: 10.1103/PhysRevLett.105.076601

  1229. Magnetic reversal phenomena of perpendicular magnetic islands fabricated by block copolymer lithography,
    Filip Ilievski, C.A. Ross, and G.J. Vancso,
    Journal of Applied Physics, 103, 07C520 (3 pages) (Apr 2008). doi: 10.1063/1.2838622

  1230. Transition from symmetric to asymmetric local coercivity distribution in CoCrPt alloy films,
    M.-Y. Im, D.-H. Kim, and S.-C. Shin,
    Physical Review B, 72, 132416 (4 pages) (Oct 2005). doi: 10.1103/PhysRevB.72.132416

  1231. Direct real-space observation of stochastic behavior in domain nucleation process on a nanoscale,
    M.Y. Im, P. Fischer, D.H. Kim, K.D. Lee, S.H. Lee, and S.C. Shin,
    Advanced Materials, 20, 1750-1754 (May 2008). doi: 10.1002/adma.200702034

  1232. Stochastic formation of magnetic vortex structures in asymmetric disks triggered by chaotic dynamics,
    Mi-Young Im, Ki-Suk Lee, Andreas Vogel, Jung-Il Hong, Guido Meier, and Peter Fischer,
    Nature communications, 5, 5620 (6 pages) (Dec 2014). doi: 10.1038/ncomms6620

  1233. Simultaneous control of magnetic topologies for reconfigurable vortex arrays,
    Mi-Young Im, Peter Fischer, Hee-Sung Han, Andreas Vogel, Min-Seung Jung, Weilun Chao, Young-Sang Yu, Guido Meier, Jung-Il Hong, and Ki-Suk Lee,
    NPG Asia Materials, 9, e348 (7 pages) (Feb 2017). doi: 10.1038/am.2016.199

  1234. Magnetic anisotropy study of triangular-shaped Co nanostructures,
    P. Imperia, W. Kandulski, A. Kosiorek, H. Głaczyńska, H. Maletta, and M. Giersig,
    Journal of Magnetism and Magnetic Materials, 320, 2682-2687 (Nov 2008). doi: 10.1016/j.jmmm.2008.05.044

  1235. Controlled domain wall motion in micron-scale permalloy square rings,
    A. Imre, G. Csaba, V. Metlushko, G.H. Bernstein, and W. Porod,
    Physica E: Low-dimensional Systems and Nanostructures, 19, 240-245 (Jul 2003). doi: 10.1016/S1386-9477(03)00323-0

  1236. Majority logic gate for magnetic quantum-dot cellular automata,
    A. Imre, G. Csaba, L. Ji, A. Orlov, G.H. Bernstein, and W. Porod,
    Science, 311, 205-208 (Jan 2006). doi: 10.1126/science.1120506

  1237. Flux-closure magnetic states in triangular cobalt ring elements,
    A. Imre, E. Varga, L. Ji, B. Ilic, V. Metlushko, G. Csaba, A. Orlov, G.H. Bernstein, and W. Porod,
    IEEE Transactions on Magnetics, 42, 3641-3644 (Nov 2006). doi: 10.1109/TMAG.2006.882377

  1238. Carbon nanotube-based magnetic actuation of origami membranes,
    H.J. In, H. Lee, A.J. Nichol, S.G. Kim, and G. Barbastathis,
    Journal of Vacuum Science and Technology B, 26, 2509-2512 (Dec 2008). doi: 10.1116/1.3002559

  1239. Analisa pergeseran domain wall magnetik pada permalloy dengan ukuran nano,
    Anisa Indriawati,
    Jurnal Fisika FLUX, 14, 90-95 (Aug 2017). doi: 10.20527/flux.v14i2.4225

  1240. Kajian sifat kemagnetan pada free layer NiFe dan CoFeB berdasarkan simulasi mikromagnetik,
    Anisa Indriawati, Galih Setyawan, and Edi Suharyadi,
    Jurnal Fisika Flux: Jurnal Ilmiah Fisika FMIPA Universitas Lambung Mangkurat, 18, 159-163 (Aug 2021). doi: 10.20527/flux.v18i2.10459

  1241. The effect of shape toward characteristics of cerium-iron-boron thin layer,
    A. Indriawati, R. Sari, and Sulanjari,
    IOP Conference Series: Earth and Environmental Science, 926, 012040 (6 pages) (Nov 2021). doi: 10.1088/1755-1315/926/1/012040

  1242. Controllable generation of a spin-triplet supercurrent in a Josephson spin valve,
    Adrian Iovan, Taras Golod, and Vladimir M. Krasnov,
    Physical Review B, 90, 134514 (9 pages) (Oct 2014). doi: 10.1103/PhysRevB.90.134514

  1243. Signatures of the spin-triplet current in a Josephson spin valve: A micromagnetic analysis,
    Adrian Iovan and Vladimir M. Krasnov,
    Physical Review B, 96, 014511 (13 pages) (Jul 2017). doi: 10.1103/PhysRevB.96.014511

  1244. Control of critical current of intrinsic Josephson junctions due to spin injection,
    Akinobu Irie, Naohiro Arakawa, Michihide Kitamura, Hiroshi Sakuma, and Gin-ichiro Oya,
    IEEE Transactions on Applied Superconductivity, 21, 741-744 (Jun 2011). doi: 10.1109/TASC.2010.2090632

  1245. Influence of spin injection on the in-plane and out-of-plane transport properties of BSCCO single crystal,
    Akinobu Irie, Masataka Otsuka, Kentaro Murata, Kazuhiro Yamaki, and Masayuki Kitamura,
    IEEE Transactions on Applied Superconductivity, 25, 1800404 (4 pages) (Jun 2015). doi: 10.1109/TASC.2014.2375199

  1246. Manipulating the magnetization direction of transverse domain walls in Permalloy/Ir strips using nanosecond current pulses,
    Muhammad Zahid Ishaque, Van Dai Nguyen, Nicolas Rougemaille, Olivier Fruchart, Stefania Pizzini, Svenja Perl, Laurent Ranno, Jean-Christophe Toussaint, and Jan Vogel,
    Journal of Magnetism and Magnetic Materials, 397, 152-156 (Jan 2016). doi: 10.1016/j.jmmm.2015.08.062

  1247. Helimagnet-based nonvolatile multi-bit memory units,
    Rabiul Islam, Peng Li, Marijan Beg, Manoj Sachdev, and Guo-Xing Miao,
    Applied Physics Letters, 122, 152407 (6 pages) (Apr 2023). doi: 10.1063/5.0147066

  1248. Magnetic domain walls in nanostrips of single-crystalline Fe4N(001) thin films with fourfold in-plane magnetic anisotropy,
    Keita Ito, Nicolas Rougemaille, Stefania Pizzini, Syuta Honda, Norio Ota, Takashi Suemasu, and Olivier Fruchart,
    Journal of Applied Physics, 121, 243904 (6 pages) (Jun 2017). doi: 10.1063/1.4989991

  1249. Influence of induced anisotropy on the processes of magnetization reversal of cobalt circular nanodots,
    Yu.P. Ivanov, A.I. Il’in, E.V. Pustovalov, and L.A. Chebotkevich,
    Physics of the Solid State, 52, 1694-1700 (Aug 2010). doi: 10.1134/S1063783410080202

  1250. Magnetization reversal of nanodots with different magnetic anisotropy and magnetostatic energy,
    Y.P. Ivanov, K.V. Nefedev, A.I. Iljin, E.V. Pustovalov, and L.A. Chebotkevich,
    Journal of Physics: Conference Series, 266, 012117 (6 pages) (Jan 2011). doi: 10.1088/1742-6596/266/1/012117

  1251. Effect of the shape anisotropy and configurational anisotropy on the magnetic structure of ferromagnetic nanodots,
    Yu.P. Ivanov, A.I. Il’in, E.V. Pustovalov, K.V. Nefedov, and L.A. Chebotkevich,
    The Physics of Metals and Metallography, 113, 222-227 (Mar 2012). doi: 10.1134/S0031918X12030064

  1252. Magnetic configurations of Co(111) nanostripes with competing shape and crystalline anisotropies,
    Yu.P. Ivanov, O. Iglesias-Freire, E.V. Pustovalov, O. Chubykalo-Fesenko, and A. Asenjo,
    Physical Review B, 87, 184410 (9 pages) (May 2013). doi: 10.1103/PhysRevB.87.184410

  1253. Direct observation of current-induced motion of a 3D vortex domain wall in cylindrical nanowires,
    Yurii P. Ivanov, Andrey Chuvilin, Sergei Lopatin, Hanan Mohammed, and Jurgen Kosel,
    ACS Applied Materials and Interfaces, 9, 16741-16744 (May 2017). doi: 10.1021/acsami.7b03404

  1254. Spintronic PUFs for security, trust, and authentication,
    Anirudh Iyengar, Swaroop Ghosh, Kenneth Ramclam, Jae-Won Jang, and Cheng-Wei Lin,
    ACM Journal on Emerging Technologies in Computing Systems (JETC), 13, 4 (15 pages) (Nov 2016). doi: 10.1145/2809781

  1255. Magnetic domain structure of nanohole arrays in Ni films,
    M. Jaafar, D. Navas, A. Asenjo, M. Vázquez, M. Hernández-Vélez, and J.M. García-Martín,
    Journal of Applied Physics, 101, 09F513 (3 pages) (May 2007). doi: 10.1063/1.2711613

  1256. Distinguishing magnetic and electrostatic interactions by a Kelvin probe force microscopy-magnetic force microscopy combination,
    Miriam Jaafar, Oscar Iglesias-Freire, Luis Serrano-Ramón, Manuel Ricardo Ibarra, Jose Maria de Teresa, and Agustina Asenjo,
    Beilstein Journal of Nanotechnology, 2, 552-560 (Sep 2011). doi: 10.3762/bjnano.2.59

  1257. Tunable magnetic landscape,
    N. Jahedi, J. Sautner, L. Fumagalli, A. Zohar, D. Bolotin, D. Yemelyanov, and V. Metlushko,
    Physica C: Superconductivity and its applications, 468, 557-562 (Apr 2008). doi: 10.1016/j.physc.2007.11.071

  1258. Wave reversal mode in permalloy wire-tube nanostructures,
    Diana M. Arciniegas Jaimes, Martín I. Broens, Eduardo Saavedra, Noelia Bajales Luna, and Juan Escrig,
    AIP Advances, 12, 035044 (5 pages) (Mar 2022). doi: 10.1063/9.0000312

  1259. Magnetoresistance behavior of ferromagnetic nanorings in a ring-wire hybrid configuration,
    S. Jain, C.C. Wang, and A.O. Adeyeye,
    Nanotechnology, 19, 085302 (5 pages) (Feb 2008). doi: 10.1088/0957-4484/19/8/085302

  1260. Direct comparison of magnetization reversal process in rectangular and elliptical ring nanomagnets,
    S. Jain, C.C. Wang, and A.O. Adeyeye,
    Journal of Applied Physics, 103, 07D904 (3 pages) (Apr 2008). doi: 10.1063/1.2828616

  1261. Giant magnetoresistance behavior of pseudo spin valve rings with magnetostatically coupled elements,
    S. Jain and A.O. Adeyeye,
    Europhysics Letters, 84, 17002 (5 pages) (Sep 2008). doi: 10.1209/0295-5075/84/17002

  1262. Low field giant magnetoresistance in coupled elliptical rings,
    S. Jain and A.O. Adeyeye,
    Journal of Applied Physics, 104, 103914 (8 pages) (Nov 2008). doi: 10.1063/1.3021144

  1263. Configurational anisotropy and control of magnetic vortex chirality in arrays of circular Ni80Fe20 nanoscale dots,
    S. Jain, Y. Ren, A.O. Adeyeye, and N. Singh,
    Physical Review B, 80, 132401 (4 pages) (Oct 2009). doi: 10.1103/PhysRevB.80.132401

  1264. Aligned alternating head-to-head and tail-to-tail domain walls in ferromagnetic concentric rings,
    S. Jain and A.O. Adeyeye,
    IEEE Transactions on Magnetics, 46, 1595-1598 (Jun 2010). doi: 10.1109/TMAG.2010.2041046

  1265. From chaos to selective ordering of vortex cores in interacting mesomagnets,
    S. Jain, V. Novosad, F.Y. Fradin, J.E. Pearson, V. Tiberkevich, A.N. Slavin, and S.D. Bader,
    Nature Communications, 3, 1330 (7 pages) (Dec 2012). doi: 10.1038/ncomms2331

  1266. Reconfigurable ground states in connected double-dot system,
    S. Jain, F.Y. Fradin, J.E. Pearson, V. Novosad, and S.D. Bader,
    Applied Physics Letters, 102, 052401 (4 pages) (Feb 2013). doi: 10.1063/1.4790144

  1267. Control and manipulation of the dynamic response of interacting spin vortices,
    Shikha Jain, Valentyn Novosad, Frank Y. Fradin, John E. Pearson, Vasil. Tiberkevich, Andrei N. Slavin, and Samuel D. Bader,
    IEEE Transactions on Magnetics, 49, 3081-3088 (Jul 2013). doi: 10.1109/TMAG.2013.2245408

  1268. Dynamics of coupled vortices in perpendicular field,
    Shikha Jain, Valentyn Novosad, Frank Y. Fradin, John E. Pearson, and Samuel D. Bader,
    Applied Physics Letters, 104, 082409 (5 pages) (Feb 2014). doi: 10.1063/1.4866900

  1269. Comprehensive scaling analysis of current induced switching in magnetic memories based on in-plane and perpendicular anisotropies,
    Akhilesh Jaiswal, Xuanyao Fong, and Kaushik Roy,
    IEEE Journal on Emerging and Selected Topics in Circuits and Systems, 6, 120-133 (Jun 2016). doi: 10.1109/JETCAS.2016.2547698

  1270. Chirality-dependent domain wall splitting and recombination in ferromagnetic nanostructure with an anti-dot,
    Rohan Jaiswal, Vemuru Haragopal, Chandrasekhar Murapaka, and Vijayanandhini Kannan,
    Journal of Superconductivity and Novel Magnetism, 36, 665-673 (Feb 2023). doi: 10.1007/s10948-023-06507-6

  1271. Coupling of micromagnetic and structural properties across the martensite and Curie temperatures in miniaturized Ni-Mn-Ga ferromagnetic shape memory alloys,
    A.M. Jakob, M. Hennes, M. Müller, D. Spemann, and S.G. Mayr,
    Advanced Functional Materials, 23, 4694-4702 (Oct 2013). doi: 10.1002/adfm.201300165

  1272. Micromagnetic simulation of the shape effect on the permeability and loss tangent of Fe3O4 nanoparticles in the microwave range,
    Mohammad Hasan Jalali, Mohammad Hossein Shams, and Hojjat Gholizadeh,
    Journal of Superconductivity and Novel Magnetism, 36, 601-609 (Feb 2023). doi: 10.1007/s10948-022-06452-w

  1273. Coulomb blockade effects on magnetoresistance of granular magnetic media,
    M.B.A. Jalil,
    Journal of Applied Physics, 91, 7628-7630 (May 2002). doi: 10.1063/1.1450847

  1274. Tunneling magnetotransport in nanogranular-in-gap structure,
    M.B.A. Jalil,
    IEEE Transactions on Magnetics, 38, 2613-2615 (Sep 2002). doi: 10.1109/TMAG.2002.803202

  1275. Magnetic properties of lateral “antidot” arrays,
    M.B.A. Jalil, S.L.A. Phoa, S.L. Tan, and A.O. Adeyeye,
    IEEE Transactions on Magnetics, 38, 2556-2558 (Sep 2002). doi: 10.1109/TMAG.2002.801946

  1276. Bit isolation in periodic antidot arrays using transverse applied fields,
    M.B.A. Jalil,
    Journal of Applied Physics, 93, 7053-7055 (May 2003). doi: 10.1063/1.1557394

  1277. Thermal dependence of magnetotransport in nanogranular magnetic media,
    M.B.A. Jalil,
    Journal of Applied Physics, 93, 8050-8052 (May 2003). doi: 10.1063/1.1544111

  1278. Advanced modeling techniques for micromagnetic systems,
    M.B.A. Jalil, S.G. Tan, and X.Z. Cheng,
    Journal of Nanoscience and Nanotechnology, 7, 46-64 (Jan 2007). doi: 10.1166/jnn.2007.18006

  1279. Magnetic properties of patterned ferromagnetic nanowires,
    M.B.A. Jalil, S.G. Tan, and A.O. Adeyeye,
    Journal of Computational and Theoretical Nanoscience, 4, 270-274 (Mar 2007). doi: 10.1166/jctn.2007.2315

  1280. Topological Hall conductivity of vortex and skyrmion spin textures,
    M.B.A. Jalil, Seng Ghee Tan, Kwaku Eason, and Jian Feng Kong,
    Journal of Applied Physics, 115, 17D107 (3 pages) (Jan 2014). doi: 10.1063/1.4860060

  1281. Stability of topological charge of magnetic skyrmion configurations,
    M.B.A. Jalil, S.G. Tan, Z.B. Siu, W. Gan, I. Purnama, and W.S. Lew,
    Journal of Magnetism and Magnetic Materials, 399, 155-158 (Feb 2016). doi: 10.1016/j.jmmm.2015.09.064

  1282. Spin wave assisted current induced magnetic domain wall motion,
    M. Jamali, H. Yang, and K.-J. Lee,
    Applied Physics Letters, 96, 242501 (3 pages) (Jun 2010). doi: 10.1063/1.3446833

  1283. Effect of nonadiabatic spin transfer torque on domain wall resonance frequency and mass,
    M. Jamali, K.-J. Lee, and H. Yang,
    Applied Physics Letters, 98, 092501 (3 pages) (Feb 2011). doi: 10.1063/1.3560305

  1284. Evaluation of spin waves and ferromagnetic resonance contribution to the spin pumping in a Ta/CoFeB structure,
    Mahdi Jamali, Angeline K. Smith, Hongshi Li, and Jian-Ping Wang,
    Journal of Physics D: Applied Physics, 49, 12LT01 (6 pages) (Feb 2016). doi: 10.1088/0022-3727/49/12/12LT01

  1285. Device geometry effects in an integrated power microinductor with a Ni45Fe55 enhancement layer,
    Brice Jamieson, Jeffrey F. Godsell, Ningning Wang, and Saibal Roy,
    IEEE Transactions on Magnetics, 49, 869-873 (Feb 2013). doi: 10.1109/TMAG.2012.2213826

  1286. Formation and structure of 360 and 540 degree domain walls in thin magnetic stripes,
    Y. Jang, S.R. Bowden, M. Mascaro, J. Unguris, and C.A. Ross,
    Applied Physics Letters, 100, 062407 (4 pages) (Feb 2012). doi: 10.1063/1.3681800

  1287. Current-driven domain wall motion in heterostructured ferromagnetic nanowires,
    Y. Jang, M.D. Mascaro, G.S.D. Beach, and C.A. Ross,
    Applied Physics Letters, 100, 112401 (5 pages) (Mar 2012). doi: 10.1063/1.3692797

  1288. Domain walls in nanostripes of cubic-anisotropy ferromagnetic materials,
    Andrzej Janutka and Przemysław Gawroński,
    IEEE Transactions on Magnetics, 50, 1100404 (4 pages) (Nov 2014). doi: 10.1109/TMAG.2014.2323342

  1289. Driving large-velocity propagation of ferromagnetic π/2 domain walls in nanostripes of cubic-anisotropy materials,
    Andrzej Janutka, Przemysław Gawroński, and Paweł S. Ruszała,
    Journal of Physics D: Applied Physics, 48, 495001 (11 pages) (Nov 2015). doi: 10.1088/0022-3727/48/49/495001

  1290. Ordering in rolled-up single-walled ferromagnetic nanomembranes,
    Andrzej Janutka,
    Journal of Magnetism and Magnetic Materials, 419, 282-291 (Dec 2016). doi: 10.1016/j.jmmm.2016.06.030

  1291. Domain-wall-assisted giant magnetoimpedance of thin-wall ferromagnetic nanotubes,
    Andrzej Janutka and Kacper Brzuszek,
    Journal of Magnetism and Magnetic Materials, 465, 437-449 (Nov 2018). doi: 10.1016/j.jmmm.2018.06.007

  1292. Double-vortex-assisted asymmetric magnetoreactance in H-shaped nanomagnets,
    Andrzej Janutka and Kacper Brzuszek,
    IEEE Magnetics Letters, 10, 6103105 (5 pages) (Apr 2019). doi: 10.1109/LMAG.2019.2912964

  1293. Giant magnetoreactance in magnetic nanowires,
    Andrzej Janutka and Kacper Brzuszek,
    Journal of Magnetism and Magnetic Materials, 515, 167297 (6 pages) (Dec 2020). doi: 10.1016/j.jmmm.2020.167297

  1294. Intrinsic spin dynamics in optically excited nanoscale magnetic tunnel junction arrays restored by dielectric coating,
    M. Jaris, Y. Yahagi, B.K. Mahato, S. Dhuey, S. Cabrini, V. Nikitin, J. Stout, A.R. Hawkins, and H. Schmidt,
    Applied Physics Letters, 109, 202403 (5 pages) (Nov 2016). doi: 10.1063/1.4967848

  1295. Towards ultraefficient nanoscale straintronic microwave devices,
    Mike Jaris, Weigang Yang, Cassidy Berk, and Holger Schmidt,
    Physical Review B, 101, 214421 (6 pages) (Jun 2020). doi: 10.1103/PhysRevB.101.214421

  1296. Influence of geometry on current-driven vortex oscillations in nanocontact devices,
    E. Jaromirska, L. Lopez-Diaz, A. Ruotolo, J. Grollier, V. Cros, and D. Berkov,
    Physical Review B, 83, 094419 (7 pages) (Mar 2011). doi: 10.1103/PhysRevB.83.094419

  1297. Magnetic domain propagation in Pt/Co/Pt micro wires with engineered coercivity gradients along and across the wire,
    A. Jarosz, A. Gaul, M. Urbaniak, A. Ehresmann, and F. Stobiecki,
    Journal of Magnetism and Magnetic Materials, 435, 162-166 (Aug 2017). doi: 10.1016/j.jmmm.2017.04.001

  1298. Emergence of huge negative spin-transfer torque in atomically thin Co layers,
    Soong-Geun Je, Sang-Cheol Yoo, Joo-Sung Kim, Yong-Keun Park, Min-Ho Park, Joon Moon, Byoung-Chul Min, and Sug-Bong Choe,
    Physical Review Letters, 118, 167205 (6 pages) (Apr 2017). doi: 10.1103/PhysRevLett.118.167205

  1299. Creation of magnetic skyrmion bubble lattices by ultrafast laser in ultrathin films,
    Soong-Geun Je, Pierre Vallobra, Titiksha Srivastava, Juan-Carlos Rojas-Sánchez, Thai Ha Pham, Michel Hehn, Gregory Malinowski, Claire Baraduc, Stéphane Auffret, Gilles Gaudin, Stéphane Mangin, Hélène Béa, and Olivier Boulle,
    Nano Letters, 18, 7362-7371 (Oct 2018). doi: 10.1021/acs.nanolett.8b03653

  1300. Topological charge analysis of dynamic process of transition to Néel-type skyrmion: Role of domain wall skyrmions,
    Soong-Geun Je,
    Current Applied Physics, 21, 175-179 (Jan 2021). doi: 10.1016/j.cap.2020.10.021

  1301. Magnetic domain structure in coupled rectangular nanostructures,
    Jonas Jelli, Kristof M. Lebecki, Sebastian Hankemeier, Robert Frömter, Hans Peter Oepen, and Ulrich Nowak,
    IEEE Transactions on Magnetics, 49, 1077-1081 (Mar 2013). doi: 10.1109/TMAG.2012.2219879

  1302. Strain-mediated ferromagnetism and low-field magnetic reversal in Co doped monolayer WS2,
    Anjan Kumar Jena, Sameer Kumar Mallik, Mousam Charan Sahu, Sandhyarani Sahoo, Ajit Kumar Sahoo, Neha Kapila Sharma, J. Mohanty, Sanjeev K. Gupta, Rajeev Ahuja, and Satyaprakash Sahoo,
    Scientific Reports, 12, 2593 (12 pages) (Feb 2022). doi: 10.1038/s41598-022-06346-w

  1303. Single-spin sensing of domain-wall structure and dynamics in a thin-film skyrmion host,
    Alec Jenkins, Matthew Pelliccione, Guoqiang Yu, Xin Ma, Xiaoqin Li, Kang L. Wang, and Ania C. Bleszynski Jayich,
    Physical Review Materials, 3, 083801 (10 pages) (Aug 2019). doi: 10.1103/PhysRevMaterials.3.083801

  1304. Magnetoresistance of domain walls in superconductor/ferromagnet hybrid systems,
    A.S. Jenkins, S. Lepadatu, C.H. Marrows, and G. Burnell,
    Journal of Superconductivity and Novel Magnetism, 24, 911-914 (Jan 2011). doi: 10.1007/s10948-010-0917-3

  1305. Controlling the chirality and polarity of vortices in magnetic tunnel junctions,
    A.S. Jenkins, E. Grimaldi, P. Bortolotti, R. Lebrun, H. Kubota, K. Yakushiji, A. Fukushima, G. de Loubens, O. Klein, S. Yuasa, and V. Cros,
    Applied Physics Letters, 105, 172403 (5 pages) (Oct 2014). doi: 10.1063/1.4900743

  1306. Spin-torque resonant expulsion of the vortex core for an efficient radiofrequency detection scheme,
    A.S. Jenkins, R. Lebrun, E. Grimaldi, S. Tsunegi, P. Bortolotti, H. Kubota, K. Yakushiji, A. Fukushima, G. de Loubens, O. Klein, S. Yuasa, and V. Cros,
    Nature Nanotechnology, 11, 360-364 (Jan 2016). doi: 10.1038/nnano.2015.295

  1307. Enhanced gyration-signal propagation speed in one-dimensional vortex-antivortex lattices and its control by perpendicular bias field,
    Han-Byeol Jeong and Sang-Koog Kim,
    Applied Physics Letters, 105, 222410 (5 pages) (Dec 2014). doi: 10.1063/1.4903474

  1308. GPU-accelerated micromagnetic simulations using cloud computing,
    C.L. Jermain, G.E. Rowlands, R.A. Buhrman, and D.C. Ralph,
    Journal of Magnetism and Magnetic Materials, 401, 320-322 (Mar 2016). doi: 10.1016/j.jmmm.2015.10.054

  1309. Logical devices based on the antiferromagnetic-antimeron in a ferromagnet nanodot with gain,
    Lianze Ji, Rongzhi Zhao, Chenglong Hu, Wenchao Chen, Yixing Li, Kun Ren, Yimin Chen, and Xuefeng Zhang,
    Applied Physics Letters, 118, 172410 (6 pages) (Apr 2021). doi: 10.1063/5.0050241

  1310. Correlation between spin configuration and magnetostatic interaction of ferromagnetic nanocubes,
    G. Jia, H.-G. Piao, X. Tan, Y. Jiang, X. Yang, and Y. Huang,
    Journal of Nanoscience and Nanotechnology, 15, 9234-9239 (Nov 2015). doi: 10.1166/jnn.2015.11405

  1311. Effect of anisotropy on the evolution of magnetic configuration in a helimagnet nanodisk,
    Min Jia, Huan Yan, and Yan Liu,
    Journal of Magnetism and Magnetic Materials, 426, 155-158 (Mar 2017). doi: 10.1016/j.jmmm.2016.11.086

  1312. Sm-Co/α-Fe/Sm-Co three-film magnetic micro-magnetic simulation,
    Zhang Jia and Zhang Mingang,
    Journal of the Chinese Rare Earth Society, 29, 528-532 (Oct 2011).

  1313. Effect of the stray field profile on the switching characteristics of the free layer in a perpendicular magnetic tunnel junction,
    Huang Jiancheng, Sim Cheow Hin, Vinayak Bharat Naik, Michael Tran, Lim Sze Ter, and Han Guchang,
    Journal of Applied Physics, 117, 17B721 (4 pages) (Mar 2015). doi: 10.1063/1.4916037

  1314. Non-volatile approximate arithmetic circuits using scalable hybrid spin-CMOS majority gates,
    Honglan Jiang, Shaahin Angizi, Deliang Fan, Jie Han, and Leibo Liu,
    IEEE Transactions on Circuits and Systems I: Regular Papers, 68, 1217-1230 (Mar 2021). doi: 10.1109/TCSI.2020.3044728

  1315. The sign reversal of anomalous Hall effect derived from the transformation of scattering effect in cluster-assembled Ni0.8Fe0.2 nanostructural films,
    Ning Jiang, Bo Yang, Yulong Bai, Yaoxiang Jiang, and Shifeng Zhao,
    Nanoscale, 13, 11817-11826 (Jul 2021). doi: 10.1039/D1NR02313F

  1316. Ultrasensitive angle deviation feedback based on jump switching of the anisotropic magnetoresistance effect in cluster-assembled nanostructured films,
    Ning Jiang, Bo Yang, Yaoxiang Jiang, Yulong Bai, and Shifeng Zhao,
    The Journal of Physical Chemistry C, 126, 18931-18942 (Oct 2022). doi: 10.1021/acs.jpcc.2c06218

  1317. Planar Hall effect modified by the evolution of magnetic domain states,
    Ning Jiang, Hengbin An, Yulong Bai, Bo Yang, and Shifeng Zhao,
    The Journal of Physical Chemistry C, 127, 9154-9163 (May 2023). doi: 10.1021/acs.jpcc.3c01243

  1318. Dynamics of magnetic skyrmion clusters driven by spin-polarized current with a spatially varied polarization,
    Wenjing Jiang, Jing Xia, Xichao Zhang, Yifan Song, Chuang Ma, Hans Fangohr, Guoping Zhao, Xiaoxi Liu, Weisheng Zhao, and Yan Zhou,
    IEEE Magnetics Letters, 9, 3102905 (5 pages) (Apr 2018). doi: 10.1109/LMAG.2018.2825280

  1319. Physical reservoir computing using magnetic skyrmion memristor and spin torque nano-oscillator,
    Wencong Jiang, Lina Chen, Kaiyuan Zhou, Liyuan Li, Qingwei Fu, Youwei Du, and R.H. Liu,
    Applied Physics Letters, 115, 192403 (5 pages) (Nov 2019). doi: 10.1063/1.5115183

  1320. Design of magnetic nanoplatforms for cancer theranostics,
    Wangbo Jiao, Tingbin Zhang, Mingli Peng, Jiabao Yi, Yuan He, and Haiming Fan,
    Biosensors, 12, 38 (21 pages) (Jan 2022). doi: 10.3390/bios12010038

  1321. Current-induced 360° domain wall motion with Dzyaloshinskii-Moriya interaction,
    Chendong Jin, Senfu Zhang, Qiyuan Zhu, Xianyin Liu, Shujun Chen, Chengkun Song, Jianbo Wang, and Qingfang Liu,
    Journal of Physics D: Applied Physics, 49, 175005 (6 pages) (Apr 2016). doi: 10.1088/0022-3727/49/17/175005

  1322. Topological trajectories of a magnetic skyrmion with an in-plane microwave magnetic field,
    Chendong Jin, Chengkun Song, Jinshuai Wang, Haiyan Xia, Jianbo Wang, and Qingfang Liu,
    Journal of Applied Physics, 122, 223901 (6 pages) (Dec 2017). doi: 10.1063/1.4998269

  1323. Array of synchronized nano-oscillators based on repulsion between domain wall and skyrmion,
    Chendong Jin, Jianbo Wang, Weiwei Wang, Chengkun Song, Jinshuai Wang, Haiyan Xia, and Qingfang Liu,
    Physical Review Applied, 9, 044007 (9 pages) (Apr 2018). doi: 10.1103/PhysRevApplied.9.044007

  1324. High-frequency spin transfer nano-oscillator based on the motion of skyrmions in an annular groove,
    Chendong Jin, Yunxu Ma, Chengkun Song, Haiyan Xia, Jianing Wang, Chunlei Zhang, Zhaozhuo Zeng, Jianbo Wang, and Qingfang Liu,
    New Journal of Physics, 22, 033001 (8 pages) (Mar 2020). doi: 10.1088/1367-2630/ab7258

  1325. Spin-wave modes of elliptical skyrmions in magnetic nanodots,
    Chendong Jin, Shuang Li, Hu Zhang, Ruining Wang, Jianglong Wang, Ruqian Lian, Penglai Gong, and Xingqiang Shi,
    New Journal of Physics, 24, 043005 (9 pages) (Apr 2022). doi: 10.1088/1367-2630/ac5df9

  1326. Spin-wave modes of magnetic bimerons in nanodots,
    Chendong Jin, Shuang Li, Hu Zhang, Ruining Wang, Jianglong Wang, Ruqian Lian, Penglai Gong, and Xingqiang Shi,
    New Journal of Physics, 24, 073013 (10 pages) (Jul 2022). doi: 10.1088/1367-2630/ac7c86

  1327. Skyrmion-based JK flip-flop with a wedge-shaped circular track,
    Fang Jin, Hengchang Rao, Zhi Zhao, Junlei Song, Wenqin Mo, Yajuan Hui, and Kaifeng Dong,
    Japanese Journal of Applied Physics, 59, 010907 (5 pages) (Jan 2020). doi: 10.7567/1347-4065/ab6507

  1328. Attaining high magnetic performance in as-sintered multi-main-phase Nd-La-Ce-Fe-B magnets: Toward skipping the post-sinter annealing treatment,
    Jiaying Jin, Mi Yan, Yongsheng Liu, Baixing Peng, and Guohua Bai,
    Acta Materialia, 169, 248-259 (May 2019). doi: 10.1016/j.actamat.2019.03.005

  1329. Comparative study of Pr/PrFe/PrAl grain boundary diffusion processed Nd-Ce-Fe-B sintered magnets with high Ce substitution: Evolutionary microstructure and magnetic responses,
    Jiaying Jin, Wang Chen, Mengfan Bu, Liang Zhou, Baixing Peng, Wei Li, and Mi Yan,
    Acta Materialia, 257, 119175 (14 pages) (Sep 2023). doi: 10.1016/j.actamat.2023.119175

  1330. Dynamic nucleation of domain-chains in magnetic nanotracks,
    Xiangjun Jin, Yong Li, and Fusheng Ma,
    Chinese Physics B, 27, 127504 (4 pages) (Nov 2018). doi: 10.1088/1674-1056/27/12/127504

  1331. Characteristics and applications of current-driven magnetic skyrmion strings,
    Zhaonian Jin, Minhang Song, Henan Fang, Lin Chen, Jiangwei Chen, and Zhikuo Tao,
    Chinese Physics Letters, 39, 108502 (5 pages) (Sep 2022). doi: 10.1088/0256-307X/39/10/108502

  1332. Vortex structures and magnetic domain patterns in the superconductor/ferromagnet hybrid bilayer,
    Ze Jing, Huadong Yong, and You-He Zhou,
    Superconductor Science and Technology, 27, 105005 (11 pages) (Oct 2014). doi: 10.1088/0953-2048/27/10/105005

  1333. Demagnetization-borne microscale skyrmions,
    P. Johnson, A.K. Gangopadhyay, R. Kalyanaraman, and Z. Nussinov,
    Physical Review B, 86, 064427 (8 pages) (Aug 2012). doi: 10.1103/PhysRevB.86.064427

  1334. Micromagnetic simulation of L10-FePt-based transition jitter of heat-assisted magnetic recording at ultrahigh areal density,
    Chavakon Jongjaihan and Arkom Kaewrawang,
    Micromachines, 13, 1559 (9 pages) (Oct 2022). doi: 10.3390/mi13101559

  1335. A GPU accelerated micromagnetic simulator for modelling complex magnetic systems,
    D. Jordan, P. McCloskey, and G. Wei,
    Journal of Magnetism and Magnetic Materials, 537, 168204 (6 pages) (Nov 2021). doi: 10.1016/j.jmmm.2021.168204

  1336. Reversing the circulation of ferromagnetic nanodisks with a local circular magnetic field,
    Wen-Ming Ju, Jessica E. Bickel, Nihar Pradhan, Katherine E. Aidala, and Mark Tuominen,
    Nanotechnology, 31, 115205 (6 pages) (Jan 2020). doi: 10.1088/1361-6528/ab5c3c

  1337. Nanomagnet logic from partially irradiated Co/Pt nanomagnets,
    Xueming Ju, Stephanie Wartenburg, Jamila Rezgani, Markus Becherer, Josef Kiermaier, Stephan Breitkreutz, Doris Schmitt-Landsiedel, Wolfgang Porod, Paolo Lugli, and György Csaba,
    IEEE Transactions on Nanotechnology, 11, 97-104 (Jan 2012). doi: 10.1109/TNANO.2011.2157974

  1338. Systolic pattern matching hardware with out-of-plane nanomagnet logic devices,
    Xueming Ju, Michael T. Niemier, Markus Becherer, Wolfgang Porod, Paolo Lugli, and György Csaba,
    IEEE Transactions on Nanotechnology, 12, 399-407 (May 2013). doi: 10.1109/TNANO.2013.2253118

  1339. Magnetic domain walls in constrained geometries,
    P.-O. Jubert, R. Allenspach, and A. Bischof,
    Physical Review B, 69, 220410(R) (4 pages) (Jun 2004). doi: 10.1103/PhysRevB.69.220410

  1340. Analytical approach to the single-domain-to-vortex transition in small magnetic disks,
    P.-O. Jubert and R. Allenspach,
    Physical Review B, 70, 144402 (5 pages) (Oct 2004). doi: 10.1103/PhysRevB.70.144402

  1341. Modifying bloch walls by constrictions,
    P.-O. Jubert and R. Allenspach,
    Journal of Magnetism and Magnetic Materials, 290-291, 758-760 (Apr 2005). doi: 10.1016/j.jmmm.2004.11.353

  1342. Nonlinear motion of coupled magnetic vortices in ferromagnetic/nonmagnetic/ferromagnetic trilayer,
    Su-Hyeong Jun, Je-Ho Shim, Suhk-Kun Oh, Seong-Cho Yu, Dong-Hyun Kim, Brooke Mesler, and Peter Fischer,
    Applied Physics Letters, 95, 142509 (3 pages) (Oct 2009). doi: 10.1063/1.3243985

  1343. Magnetic skyrmion diode: Unidirectional skyrmion motion via symmetry breaking of potential energy barriers,
    Dae-Han Jung, Hee-Sung Han, Namkyu Kim, Ganghwi Kim, Suyeong Jeong, Sooseok Lee, Myeonghwan Kang, Mi-Young Im, and Ki-Suk Lee,
    Physical Review B, 104, L060408 (6 pages) (Aug 2021). doi: 10.1103/PhysRevB.104.L060408

  1344. Observation of coupled vortex gyrations by 70-ps-time- and 20-nm-space-resolved full-field magnetic transmission soft x-ray microscopy,
    H. Jung, Y.-S. Yu, K.-S. Lee, M.-Y. Im, P. Fischer, L. Bocklage, A. Vogel, M. Bolte, G. Meier, and S.-K. Kim,
    Applied Physics Letters, 97, 222502 (3 pages) (Nov 2010). doi: 10.1063/1.3517496

  1345. Tunable negligible-loss energy transfer between dipolar-coupled magnetic disks by stimulated vortex gyration,
    H. Jung, K.-S. Lee, D.-E. Jeong, Y.-S. Choi, Y.-S. Yu, D.-S. Han, A. Vogel, L. Bocklage, G. Meier, M.-Y. Im, P. Fischer, and S.-K. Kim,
    Scientific Reports, 1, 59 (6 pages) (Aug 2011). doi: 10.1038/srep00059

  1346. Logic operations based on magnetic-vortex-state networks,
    H. Jung, Y.-S. Choi, K.-S. Lee, D.-S. Han, Y.-S. Yu, M.-Y. Im, P. Fischer, and S.-K. Kim,
    ACS nano, 6, 3712-3717 (May 2012). doi: 10.1021/nn3000143

  1347. Micromagnetic calculations of ferromagnetic resonance in submicron ferromagnetic particles,
    S. Jung, J.B. Ketterson, and V. Chandrasekhar,
    Physical Review B, 66, 132405 (4 pages) (Oct 2002). doi: 10.1103/PhysRevB.66.132405

  1348. Ferromagnetic resonance in periodic particle arrays,
    S. Jung, B. Watkins, L. DeLong, J.B. Ketterson, and V. Chandrasekhar,
    Physical Review B, 66, 132401 (4 pages) (Oct 2002). doi: 10.1103/PhysRevB.66.132401

  1349. Magnetization reversal in single-layer and exchange-biased elliptical-ring arrays,
    Wonjoon Jung, F.J. Castaño, D. Morecroft, C.A. Ross, Rajesh Menon, and Henry I. Smith,
    Journal of Applied Physics, 97, 10K113 (3 pages) (May 2005). doi: 10.1063/1.1855461

  1350. Nanofabricated concentric ring structures by templated self-assembly of a diblock copolymer,
    Y.S. Jung, W. Jung, and C.A. Ross,
    Nano Letters, 8, 2975-2981 (Sep 2008). doi: 10.1021/nl802011w

  1351. Measurement and analysis of noise sources in giant magnetoresistive sensors up to 6 GHz,
    Jason C. Jury, Klaas B. Klaassen, Jack C.L. van Peppen, and Shan X. Wang,
    IEEE Transactions on Magnetics, 38, 3545-3555 (Sep 2002). doi: 10.1109/TMAG.2002.802706

  1352. A methodology for finite element modeling of magnetic inductive devices with in-plane multidomain pattern,
    J.C. Jury and S.X. Wang,
    IEEE Transactions on Magnetics, 42, 3222-3224 (Oct 2006). doi: 10.1109/TMAG.2006.880106

  1353. Metastable states in large angle magnetization rotations,
    Pavel Kabos, Shehzaad Kaka, Stephen E. Russek, and Thomas J. Silva,
    IEEE Transactions on Magnetics, 36, 3050-3052 (Sep 2000). doi: 10.1109/20.908675

  1354. Investigation of the switching wave propagation in linear chains of magnetic elements,
    L. Kaganovskiy, D. Litvinov, S. Khizroev, and S. Wilcox,
    Journal of Applied Physics, 110, 043901 (6 pages) (Aug 2011). doi: 10.1063/1.3624619

  1355. Influence of low anisotropy inclusions on magnetization reversal in bit-patterned arrays,
    L. Kaganovskiy, S. Khizroev, and D. Litvinov,
    Journal of Applied Physics, 111, 033924 (5 pages) (Feb 2012). doi: 10.1063/1.3679563

  1356. Influence of a low anisotropy grain on magnetization reversal in polycrystalline bit-patterned media,
    Leon Kaganovskiy, June W. Lau, Sakhrat Khizroev, and Dmitri Litvinov,
    Journal of Applied Physics, 114, 123909 (5 pages) (Sep 2013). doi: 10.1063/1.4822315

  1357. Hot electron transport and a quantitative study of ballistic electron magnetic imaging on Co/Cu multilayers,
    A. Kaidatzis, S. Rohart, A. Thiaville, and J. Miltat,
    Physical Review B, 78, 174426 (10 pages) (Nov 2008). doi: 10.1103/PhysRevB.78.174426

  1358. Fast characterization of input-output behavior of non-charge-based logic devices by machine learning,
    Arun Kaintura, Kyle Foss, Odysseas Zografos, Ivo Couckuyt, Adrien Vaysset, Tom Dhaene, and Bart Sorée,
    Electronics, 9, 1381 (14 pages) (Sep 2020). doi: 10.3390/electronics9091381

  1359. Influence of magnetocrystalline anisotropy on the magnetization dynamics of magnetic microstructures,
    A. Kaiser, C. Wiemann, S. Cramm, and C.M. Schneider,
    Journal of Physics: Condensed Matter, 21, 314008 (6 pages) (Aug 2009). doi: 10.1088/0953-8984/21/31/314008

  1360. Engineering the switching behavior of nanomagnets for logic computation using 3-D modeling and simulation,
    Waldemar Kaiser, Martina Kiechle, Gražvydas Žiemys, Doris Schmitt-Landsiedel, and Stephan Breitkreutz-von Gamm,
    IEEE Transactions on Magnetics, 53, 3400304 (4 pages) (Jun 2017). doi: 10.1109/TMAG.2017.2654969

  1361. Micromagnetic simulation of nanomagnets with geometry-tuned domain wall nucleation,
    W. Kaiser, M. Kiechle, G. Žiemys, D. Schmitt-Landsiedel, and S. Breitkreutz-v. Gamm,
    Journal of Physics: Conference Series, 903, 012052 (3 pages) (Oct 2017). doi: 10.1088/1742-6596/903/1/012052

  1362. Transmission of electrical signals by spin-wave interconversion in a magnetic insulator,
    Y. Kajiwara, K. Harii, S. Takahashi, J. Ohe, K. Uchida, M. Mizuguchi, H. Umezawa, H. Kawai, K. Ando, K. Takanashi, S. Maekawa, and E. Saitoh,
    Nature, 464, 262-266 (Mar 2010). doi: 10.1038/nature08876

  1363. Switching in spin-valve devices in response to subnanosecond longitudinal field pulses,
    Shehzaad Kaka and Stephen Russek,
    Journal of Applied Physics, 87, 6391-6393 (May 2000). doi: 10.1063/1.372716

  1364. Origin of fourfold anisotropy in square lattices of circular ferromagnetic dots,
    G.N. Kakazei, Y.G. Pogorelov, M.D. Costa, T. Mewes, P.E. Wigen, P.C. Hammel, V.O. Golub, T. Okuno, and V. Novosad,
    Physical Review B, 74, 60406 (4 pages) (Aug 2006). doi: 10.1103/PhysRevB.74.060406

  1365. Probing arrays of circular magnetic microdots by ferromagnetic resonance,
    G.N. Kakazei, T. Mewes, P.E. Wigen, P.C. Hammel, A.N. Slavin, Y.G. Pogorelov, M.D. Costa, V.O. Golub, K.Y. Guslienko, and V. Novosad,
    Journal of Nanoscience and Nanotechnology, 8, 2811-2826 (Jun 2008). doi: 10.1166/jnn.2008.18309

  1366. Probing dynamical magnetization pinning in circular dots as a function of the external magnetic field orientation,
    G.N. Kakazei, G.R. Aranda, S.A. Bunyaev, V.O. Golub, E.V. Tartakovskaya, A.V. Chumak, A.A. Serga, B. Hillebrands, and K.Y. Guslienko,
    Physical Review B, 86, 054419 (7 pages) (Aug 2012). doi: 10.1103/PhysRevB.86.054419

  1367. Ferromagnetic resonance in Mn5Ge3 epitaxial films with weak stripe domain structure,
    R. Kalvig, E. Jedryka, P. Aleshkevych, M. Wojcik, W. Bednarski, M. Petit, and L. Michez,
    Journal of Physics D: Applied Physics, 50, 125001 (9 pages) (Feb 2017). doi: 10.1088/1361-6463/aa5ce5

  1368. Influence of temperature on the gyrotropic eigenmode of magnetic vortices,
    T. Kamionka, M. Martens, A. Drews, B. Krüger, O. Albrecht, and G. Meier,
    Physical Review B, 83, 224424 (6 pages) (Jun 2011). doi: 10.1103/PhysRevB.83.224424

  1369. Compact modeling of a magnetic tunnel junction-Part I: Dynamic magnetization model,
    J.-B. Kammerer, M. Madec, and L. Hébrard,
    IEEE Transactions on Electron Devices, 57, 1408-1415 (Jun 2010). doi: 10.1109/TED.2010.2047070

  1370. Magnetic vortex core reversal by excitation of spin waves,
    Matthias Kammerer, Markus Weigand, Michael Curcic, Matthias Noske, Markus Sproll, Arne Vansteenkiste, Bartel Van Waeyenberge, Hermann Stoll, Georg Woltersdorf, Christian H. Back, and Gisela Schuetz,
    Nature Communications, 2, 279 (6 pages) (Apr 2011). doi: 10.1038/ncomms1277

  1371. Fast spin-wave-mediated magnetic vortex core reversal,
    Matthias Kammerer, Hermann Stoll, Matthias Noske, Markus Sproll, Markus Weigand, Christian Illg, Georg Woltersdorf, Manfred Fähnle, Christian Back, and Gisela Schütz,
    Physical Review B, 86, 134426 (5 pages) (Oct 2012). doi: 10.1103/PhysRevB.86.134426

  1372. Delayed magnetic vortex core reversal,
    Matthias Kammerer, Markus Sproll, Hermann Stoll, Matthias Noske, Markus Weigand, Christian Illg, Manfred Fähnle, and Gisela Schütz,
    Applied Physics Letters, 102, 012404 (3 pages) (Jan 2013). doi: 10.1063/1.4773592

  1373. On the realization of artificial XY spin chains,
    M. van Kampen, I.L. Soroka, R. Bručas, B. Hjörvarsson, R. Wieser, K.D. Usadel, M. Hanson, O. Kazakova, J. Grabis, H. Zabel, C. Jozsa, and B. Koopmans,
    Journal of Physics: Condensed Matter, 17, L27-L33 (Jan 2005). doi: 10.1088/0953-8984/17/2/L04

  1374. Geometrical optimization of a local ballistic magnetic sensor,
    Yuhsuke Kanda, Tatsuya Nomura, Takashi Kimura, and Masahiro Hara,
    Applied Physics Letters, 104, 142408 (4 pages) (Apr 2014). doi: 10.1063/1.4871002

  1375. Compact modeling and evaluation of magnetic skyrmion-based racetrack memory,
    Wang Kang, Chentian Zheng, Yangqi Huang, Xichao Zhang, Weifeng Lv, Yan Zhou, and Weisheng Zhao,
    IEEE Transactions on Electron Devices, 64, 1060-1068 (Feb 2017). doi: 10.1109/TED.2017.2656140

  1376. A model study of an error-free magnetization reversal through dipolar coupling in a two-magnet system,
    Nickvash Kani, Sou-Chi Chang, Sourav Dutta, and Azad Naeemi,
    IEEE Transactions on Magnetics, 52, 1300112 (12 pages) (Feb 2016). doi: 10.1109/TMAG.2015.2475426

  1377. Demagnetization field driven charge transport in a TiO2 based dye sensitized solar cell,
    U.M. Kannan, L. Giribabu, and S. Narayana Jammalamadaka,
    Solar Energy, 187, 281-289 (Jul 2019). doi: 10.1016/j.solener.2019.05.029

  1378. Thermal fluctuations in artificial spin ice,
    Vassilios Kapaklis, Unnar B. Arnalds, Alan Farhan, Rajesh V. Chopdekar, Ana Balan, Andreas Scholl, Laura J. Heyderman, and Björgvin Hjörvarsson,
    Nature Nanotechnology, 9, 514-519 (Jun 2014). doi: 10.1038/nnano.2014.104

  1379. Observation of the dominant spin-triplet supercurrent in Josephson spin valves with strong Ni ferromagnets,
    O.M. Kapran, A. Iovan, T. Golod, and V.M. Krasnov,
    Physical Review Research, 2, 013167 (10 pages) (Feb 2020). doi: 10.1103/PhysRevResearch.2.013167

  1380. Ferromagnetic-waveguide width dependence of propagation properties for magnetostatic surface spin waves,
    Kenji Kasahara, Ryusei Akamatsu, and Takashi Manago,
    AIP Advances, 11, 045308 (6 pages) (Apr 2021). doi: 10.1063/5.0046943

  1381. Template-based electrodeposited nonmagnetic and magnetic metal nanowire arrays as building blocks of future nanoscale applications,
    M. Almasi Kashi and A.H. Montazer,
    Journal of Physics D: Applied Physics, 55, 233002 (46 pages) (Feb 2022). doi: 10.1088/1361-6463/ac4d48

  1382. Mode change of vortex core oscillation induced by large direct current in 120 nm sized current perpendicular-to-plane giant magnetoresistance devices with a perpendicular polarizer,
    Yuki Kawada, Hiroshi Naganuma, Ahmet Serdar Demiray, Mikihiko Oogane, and Yasuo Ando,
    Applied Physics Letters, 105, 052407 (4 pages) (Aug 2014). doi: 10.1063/1.4892077

  1383. Spiral terraces and spin frustration in layered antiferromagnetic Cr (001) films,
    T. Kawagoe, Y. Iguchi, T. Miyamachi, A. Yamasaki, and S. Suga,
    Physical Review Letters, 95, 207205 (4 pages) (Nov 2005). doi: 10.1103/PhysRevLett.95.207205

  1384. Magnetic imaging of spiral terraces in Cr (001) films,
    T. Kawagoe, Y. Iguchi, and S. Suga,
    Journal of Magnetism and Magnetic Materials, 310, 2201-2203 (Mar 2007). doi: 10.1016/j.jmmm.2006.10.759

  1385. Odd spin frustration in Cr(001) films thinner than three nanometers revealed by spin-polarized scanning tunneling microscopy,
    T. Kawagoe, R. Oka, T. Miyamachi, and S. Suga,
    Physical Review B, 103, 085427 (10 pages) (Feb 2021). doi: 10.1103/PhysRevB.103.085427

  1386. Antiferromagnetic domain formation and spin frustration induced by adjacent paired screw dislocations in 10 monolayer-thick Cr(001) films,
    Takeshi Kawagoe and Shigemasa Suga,
    Japanese Journal of Applied Physics, 62, 045003 (7 pages) (Apr 2023). doi: 10.35848/1347-4065/acc8aa

  1387. High frequency susceptibility of closure domain structures calculated using micromagnetic modeling,
    Ahmet Kaya and James A. Bain,
    Journal of Applied Physics, 99, 08B708 (3 pages) (Apr 2006). doi: 10.1063/1.2177411

  1388. Packing 360° domain walls of identical circulation on planar ferromagnetic nanowires with notches using circular magnetic fields,
    F.I. Kaya, A. Sarella, D. Wang, M. Tuominen, and K.E. Aidala,
    AIP Advances, 6, 056408 (5 pages) (Mar 2016). doi: 10.1063/1.4944702

  1389. Nucleation and interactions of 360° domain walls on planar ferromagnetic nanowires using circular magnetic fields,
    F.I. Kaya, A. Sarella, D. Wang, M. Tuominen, and K.E. Aidala,
    AIP Advances, 6, 055025 (6 pages) (May 2016). doi: 10.1063/1.4953058

  1390. All-spin-orbit switching of perpendicular magnetization,
    Mohammad Kazemi, Graham E. Rowlands, Shengjie Shi, Robert A. Buhrman, and Eby G. Friedman,
    IEEE Transactions on Electron Devices, 63, 4499-4505 (Nov 2016). doi: 10.1109/TED.2016.2604215

  1391. Design rules for scalability in spin-orbit electronics,
    Mohammad Kazemi and Mark F. Bocko,
    Scientific Reports, 9, 13732 (9 pages) (Sep 2019). doi: 10.1038/s41598-019-49831-5

  1392. Energy minimization and ac demagnetization in a nanomagnet array,
    X. Ke, J. Li, C. Nisoli, P.E. Lammert, W. McConville, R.F. Wang, V.H. Crespi, and P. Schiffer,
    Physical Review Letters, 101, 37205 (4 pages) (Jul 2008). doi: 10.1103/PhysRevLett.101.037205

  1393. Tuning magnetic frustration of nanomagnets in triangular-lattice geometry,
    X. Ke, J. Li, S. Zhang, C. Nisoli, V.H. Crespi, and P. Schiffer,
    Applied Physics Letters, 93, 252504 (3 pages) (Dec 2008). doi: 10.1063/1.3043687

  1394. Time-resolved investigation of magnetization dynamics of arrays of nonellipsoidal nanomagnets with nonuniform ground states,
    P.S. Keatley, V.V. Kruglyak, A. Neudert, E.A. Galaktionov, R.J. Hicken, J.R. Childress, and J.A. Katine,
    Physical Review B, 78, 214412 (18 pages) (Dec 2008). doi: 10.1103/PhysRevB.78.214412

  1395. Time- and vector-resolved magneto-optical Kerr effect measurements of large angle precessional reorientation in a 2×2 µm2 ferromagnet,
    P.S. Keatley, V.V. Kruglyak, A. Neudert, M. Delchini, R.J. Hicken, J.R. Childress, and J.A. Katine,
    Journal of Applied Physics, 105, 07D308 (3 pages) (Feb 2009). doi: 10.1063/1.3056405

  1396. Large amplitude magnetization dynamics and the suppression of edge modes in a single nanomagnet,
    P.S. Keatley, P. Gangmei, M. Dvornik, R.J. Hicken, J.R. Childress, and J.A. Katine,
    Applied Physics Letters, 98, 082506 (3 pages) (Feb 2011). doi: 10.1063/1.3560457

  1397. Optical characterization of nonlocal spin transfer torque acting on a single nanomagnet,
    P.S. Keatley, Atif Aziz, M. Ali, B.J. Hickey, M.G. Blamire, and R.J. Hicken,
    Physical Review B, 89, 094421 (7 pages) (Mar 2014). doi: 10.1103/PhysRevB.89.094421

  1398. Generation and stability of structurally imprinted target skyrmions in magnetic multilayers,
    Noah Kent, Robert Streubel, Charles-Henri Lambert, Alejandro Ceballos, Soong-Gun Je, Scott Dhuey, Mi-Young Im, Felix Büttner, Frances Hellman, Sayeef Salahuddin, and Peter Fischer,
    Applied Physics Letters, 115, 112404 (5 pages) (Sep 2019). doi: 10.1063/1.5099991

  1399. Magnetization reversal in ferromagnetic Fibonacci nano-spirals,
    Philip Kern, Christoph Döpke, Tomasz Blachowicz, Pawel Steblinski, and Andrea Ehrmann,
    Journal of Magnetism and Magnetic Materials, 484, 37-41 (Aug 2019). doi: 10.1016/j.jmmm.2019.03.123

  1400. Magnetization reversal and emergent magnetic monopole-like state in square artificial spin ice vertex with defects,
    Neeti Keswani and Pintu Das,
    AIP Advances, 8, 101501 (6 pages) (Oct 2018). doi: 10.1063/1.5042803

  1401. On the micromagnetic behavior of dipolar-coupled nanomagnets in defective square artificial spin ice systems,
    Neeti Keswani and Pintu Das,
    Journal of Applied Physics, 126, 214304 (6 pages) (Dec 2019). doi: 10.1063/1.5127262

  1402. Complex switching behavior of magnetostatically coupled single-domain nanomagnets probed by micro-Hall magnetometry,
    N. Keswani, Y. Nakajima, N. Chauhan, T. Ukai, H. Chakraborti, K.D. Gupta, T. Hanajiri, S. Kumar, Y. Ohno, H. Ohno, and P. Das,
    Applied Physics Letters, 116, 102401 (5 pages) (Mar 2020). doi: 10.1063/1.5144841

  1403. Accessing low-energy magnetic microstates in square artificial spin ice vertices of broken symmetry in static magnetic field,
    Neeti Keswani, Ranveer Singh, Yoshikata Nakajima, Tapobrata Som, and Pintu Das,
    Physical Review B, 102, 224436 (10 pages) (Dec 2020). doi: 10.1103/PhysRevB.102.224436

  1404. An optimized magnetostatic field solver on GPU using open computing language,
    Fiaz Gul Khan, Bartolomeo Montrucchio, Bilal Jan, Abdul Nasir Khan, Waqas Jadoon, Shahaboddin Shamshirband, Anthony Theodore Chronopoulos, and Iftikhar Ahmed Khan,
    Concurrency and Computation: Practice and Experience, 29, e3981 (14 pages) (Mar 2017). doi: 10.1002/cpe.3981

  1405. A mutual demagnetizing tensor for N-body magnetic field modeling,
    Omar Khan, Carlo Ragusa, Fiaz Khan, and Bartolomeo Montrucchio,
    IEEE Transactions on Magnetics, 49, 3179-3182 (Jul 2013). doi: 10.1109/TMAG.2013.2245869

  1406. Computation of demagnetization tensors by utilizing Fourier properties,
    Omar Khan, Carlo Ragusa, and Fiaz Khan,
    IEEE Transactions on Magnetics, 50, 7027604 (4 pages) (Nov 2014). doi: 10.1109/TMAG.2014.2329703

  1407. Propagation of spin waves in microstructures based on yttrium-iron garnet films decorated by a ferromagnetic metal,
    Y.V. Khivintsev, G.M. Dudko, V.K. Sakharov, Y.V. Nikulin, and Y.A. Filimonov,
    Physics of the Solid State, 61, 1614-1621 (Sep 2019). doi: 10.1134/S1063783419090129

  1408. Interference of spin waves in arrays of microwaveguides based on yttrium-iron garnet films,
    Yu.V. Khivintsev, A.V. Kozhevnikov, V.K. Sakharov, G.M. Dudko, Yu.A. Filimonov, and A. Khitun,
    Technical Physics, 64, 1622-1628 (Nov 2019). doi: 10.1134/S106378421911015X

  1409. Spin waves in YIG-based networks: Logic and signal processing,
    Y.V. Khivintsev, A.V. Kozhevnikov, G.M. Dudko, V.K. Sakharov, Y.A. Filimonov, and A.G. Khitun,
    Physics of Metals and Metallography, 120, 1318-1324 (Dec 2019). doi: 10.1134/S0031918X1913012X

  1410. Effects of geometry of thin-film microwaveguides based on yttrium iron garnet and position of microantennas on characteristics of excitation and transmission of magnetostatic waves in them,
    Yu.V. Khivintsev, A.V. Kozhevnikov, V.K. Sakharov, G.M. Dudko, E.S. Pavlov, S.L. Vysotskii, and Yu.A. Filimonov,
    Izvestiya of Saratov University. New Series. Series: Physics, 21, 249-263 (Aug 2021). doi: 10.18500/1817-3020-2021-21-3-249-263

  1411. Spin waves in YIG based magnonic networks: Design and technological aspects,
    Y.V. Khivintsev, V.K. Sakharov, A.V. Kozhevnikov, G.M. Dudko, Y.A. Filimonov, and A. Khitun,
    Journal of Magnetism and Magnetic Materials, 545, 168754 (8 pages) (Mar 2022). doi: 10.1016/j.jmmm.2021.168754

  1412. Néel domain wall as a tunable filter for optically excited magnetostatic waves,
    N.E. Khokhlov, A.E. Khramova, Ia.A. Filatov, P.I. Gerevenkov, B.A. Klinskaya, and A.M. Kalashnikova,
    Journal of Magnetism and Magnetic Materials, 534, 168018 (7 pages) (Sep 2021). doi: 10.1016/j.jmmm.2021.168018

  1413. Micromagnetic simulation of L10-FePt-based exchange-coupled-composite-bit-patterned media with microwave-assisted magnetic recording at ultrahigh areal density,
    Pirat Khunkitti, Naruemon Wannawong, Chavakon Jongjaihan, Apirat Siritaratiwat, Anan Kruesubthaworn, and Arkom Kaewrawang,
    Micromachines, 12, 1264 (7 pages) (Oct 2021). doi: 10.3390/mi12101264

  1414. Dynamics of ferromagnetic nanomagnets with vortex or single-domain configuration,
    A. Killinger, R. Höllinger, and U. Krey,
    Journal of Magnetism and Magnetic Materials, 272-276, 724-725 (May 2004). doi: 10.1016/j.jmmm.2003.11.265

  1415. Micromagnetic simulation of magnetization reversal behavior of Co/Pt multilayer nanodot array prepared by colloidal lithograpy,
    Dong-Hyun Kim, Jong-Ryul Jeong, Yoon-Chul Cho, and Sung-Chul Shin,
    Journal of Magnetism and Magnetic Materials, 286, 23-26 (Feb 2005). doi: 10.1016/j.jmmm.2004.09.029

  1416. Magnetic soliton rectifier via phase synchronization,
    Duck-Ho Kim, Dong-Hyun Kim, Dae-Yun Kim, Sug-Bong Choe, Teruo Ono, Kyung-Jin Lee, and Se Kwon Kim,
    Physical Review B, 102, 184430 (9 pages) (Nov 2020). doi: 10.1103/PhysRevB.102.184430

  1417. Intrinsic asymmetry in chiral domain walls due to the Dzyaloshinskii-Moriya interaction,
    Dae-Yun Kim, Duck-Ho Kim, and Sug-Bong Choe,
    Applied Physics Express, 9, 053001 (4 pages) (Apr 2016). doi: 10.7567/APEX.9.053001

  1418. Magnetic domain structure of La0.7Sr0.3MnO3 nanoislands: Experiment and simulation,
    E.J. Kim, J.L.R. Watts, B. Harteneck, A. Scholl, A. Young, A. Doran, and Y. Suzuki,
    Journal of Applied Physics, 109, 07D712 (3 pages) (Mar 2011). doi: 10.1063/1.3544510

  1419. Implementation of one-dimensional domain wall dynamics simulator,
    Hyungsuk Kim, Seo Weon Heo, and Chun-Yeol You,
    AIP Advances, 7, 125231 (7 pages) (Dec 2017). doi: 10.1063/1.4996029

  1420. Stability of magnetic domains with notches in Permalloy nanowires,
    J. Kim, M.H. Jung, and S.B. Choe,
    IEEE Transactions on Magnetics, 45, 2481-2484 (Jun 2009). doi: 10.1109/TMAG.2009.2018664

  1421. Domain wall types and field-induced domain wall motion in L-shaped nanowires,
    J. Kim, S. Kim, S. Lee, and J. Hong,
    Thin Solid Films, 519, 8263-8265 (Sep 2011). doi: 10.1016/j.tsf.2011.03.071

  1422. Magnetic-vortex dynamic quasi-crystal formation in soft magnetic nano-disks,
    Junhoe Kim and Sang-Koog Kim,
    Journal of Magnetics, 22, 29-33 (Mar 2017). doi: 10.4283/JMAG.2017.22.1.029

  1423. Diffracted magneto-optical Kerr effect of a Ni magnetic grating,
    J.B. Kim, Y.H. Lu, M.H. Cho, Y.P. Lee, J.Y. Rhee, J.-H. Lee, and K.-M. Ho,
    Journal of Applied Physics, 106, 093103 (3 pages) (Nov 2009). doi: 10.1063/1.3247972

  1424. Observations of sidewall domain structures in magnetic grating,
    JinBae Kim, Jae-Hwang Lee, and Jongryoul Kim,
    IEEE Transactions on Magnetics, 47, 3524-3526 (Oct 2011). doi: 10.1109/TMAG.2011.2147292

  1425. Information-signal-transfer rate and energy loss in coupled vortex-state networks,
    J.-H. Kim, K.-S. Lee, H. Jung, D.-S. Han, and S.-K. Kim,
    Applied Physics Letters, 101, 092403 (4 pages) (Aug 2012). doi: 10.1063/1.4748885

  1426. Current-induced vortex dynamics and pinning potentials probed by homodyne detection,
    J.-S. Kim, O. Boulle, S. Verstoep, L. Heyne, J. Rhensius, M. Kläui, L.J. Heyderman, F. Kronast, R. Mattheis, C. Ulysse, and G. Faini,
    Physical Review B, 82, 104427 (7 pages) (Sep 2010). doi: 10.1103/PhysRevB.82.104427

  1427. Interaction between propagating spin waves and domain walls on a ferromagnetic nanowire,
    J.S. Kim, M. Stärk, M. Kläui, J. Yoon, C.-Y. You, L. Lopez-Diaz, and E. Martinez,
    Physical Review B, 85, 174428 (6 pages) (May 2012). doi: 10.1103/PhysRevB.85.174428

  1428. Double resonance response in nonlinear magnetic vortex dynamics,
    J.-S. Kim, M. Kläui, M.V. Fistul, J. Yoon, C.-Y. You, R. Mattheis, C. Ulysse, and G. Faini,
    Physical Review B, 88, 064402 (7 pages) (Aug 2013). doi: 10.1103/PhysRevB.88.064402

  1429. Microstructural evolution and correlated magnetic domain configuration of nanoparticles embedded in a single crystal of Cu75-Ni20-Fe5 alloy,
    Jun-Seop Kim, Toshiyuki Taniuchi, Masaki Mizuguchi, Shik Shin, Koki Takanashi, and Mahoto Takeda,
    Journal of Physics D: Applied Physics, 49, 335006 (7 pages) (Jul 2016). doi: 10.1088/0022-3727/49/33/335006

  1430. Non-equilibrium dynamic reversal of in-plane ferromagnetic elliptical disk,
    June-Seo Kim, Hee-Kyeong Hwang, and Chun-Yeol You,
    Journal of Magnetism and Magnetic Materials, 445, 103-109 (Jan 2018). doi: 10.1016/j.jmmm.2017.08.093

  1431. Field driven magnetic racetrack memory accompanied with the interfacial Dzyaloshinskii-Moriya interaction,
    June-Seo Kim, Hyeon-Jun Lee, Jung-Il Hong, and Chun-Yeol You,
    Journal of Magnetism and Magnetic Materials, 455, 45-53 (Jun 2018). doi: 10.1016/j.jmmm.2017.08.094

  1432. Numerical formula of depinning fields from notches in ferromagnetic Permalloy nanowire,
    Kab-Jin Kim, Chun-Yeol You, and Sug-Bong Choe,
    Journal of Magnetics, 13, 136-139 (Dec 2008). doi: 10.4283/JMAG.2008.13.4.136

  1433. Analytic theory of wall configuration and depinning mechanism in magnetic nanostructure with perpendicular magnetic anisotropy,
    K.J. Kim and S.B. Choe,
    Journal of Magnetism and Magnetic Materials, 321, 2197-2199 (Jul 2009). doi: 10.1016/j.jmmm.2009.01.031

  1434. Control of magnetic domain-wall polarization by means of angled Oersted field writing,
    K.-J. Kim, K.-W. Moon, K.-S. Lee, and S.-B. Choe,
    Nanotechnology, 22, 025702 (3 pages) (Jan 2011). doi: 10.1088/0957-4484/22/2/025702

  1435. Novel method for reducing operation current in magnetic domain-wall motion by the use of curved wedge nanowire,
    Kab-Jin Kim, Sang-Jun Yun, and Sug-Bong Choe,
    IEEE Transactions on Magnetics, 47, 2433-2435 (Oct 2011). doi: 10.1109/TMAG.2011.2158196

  1436. Experimental verification of domain-wall tilting induced by Dzyaloshinskii Moriya interaction in current-driven domain-wall motion,
    Myeonghoe Kim, Seong-Hyub Lee, Minhwan Kim, Kitae Kim, Jaesung Yoon, Jung-Hyun Park, and Sug-Bong Choe,
    Journal of Magnetism and Magnetic Materials, 563, 169857 (4 pages) (Dec 2022). doi: 10.1016/j.jmmm.2022.169857

  1437. Computer calculation of the Lorentz microscopy image and magnetic domain structure of weakly ordered FePt:C thin film,
    M.C. Kim, S.J. Oh, J.K. Park, and J.M. Yang,
    Applied Physics Letters, 90, 232502 (3 pages) (Jun 2007). doi: 10.1063/1.2746078

  1438. Magnetic configurations and magnetization reversal in the Co rings prepared by capillary force lithography,
    Sarah Kim, Jong-Ryul Jeong, Sang-Hyun Kim, Sung-Chul Shin, and Seung-Man Yang,
    Journal of Applied Physics, 99, 08G310 (3 pages) (Apr 2006). doi: 10.1063/1.2173938

  1439. Vortex-antivortex assisted magnetization dynamics in a semi-continuous thin-film model system studied by micromagnetic simulations,
    Sang-Koog Kim, Ki-Suk Lee, Byeong-Woo Kang, Kyeong-Jin Lee, and J.B. Kortright,
    Applied Physics Letters, 86, 052504 (3 pages) (Jan 2005). doi: 10.1063/1.1855413

  1440. Reliable low-power control of ultrafast vortex-core switching with the selectivity in an array of vortex states by in-plane circular-rotational magnetic fields and spin-polarized currents,
    Sang-Koog Kim, Ki-Suk Lee, Young-Sang Yu, and Youn-Seok Choi,
    Applied Physics Letters, 92, 022509 (3 pages) (Jan 2008). doi: 10.1063/1.2807274

  1441. Negative refraction of dipole-exchange spin waves through a magnetic twin interface in restricted geometry,
    S.K. Kim, S. Choi, K.S. Lee, D.S. Han, D.E. Jung, and Y.S. Choi,
    Applied Physics Letters, 92, 212501 (3 pages) (May 2008). doi: 10.1063/1.2936294

  1442. Low-power selective control of ultrafast vortex-core switching by circularly rotating magnetic fields: Circular-rotational eigenmodes,
    S.K. Kim, K.S. Lee, Y.S. Choi, and Y.S. Yu,
    IEEE Transactions on Magnetics, 44, 3071-3074 (Nov 2008). doi: 10.1109/TMAG.2008.2001539

  1443. A gigahertz-range spin-wave filter composed of width-modulated nanostrip magnonic-crystal waveguides,
    Sang-Koog Kim, Ki-Suk Lee, and Dong-Soo Han,
    Applied Physics Letters, 95, 082507 (3 pages) (Aug 2009). doi: 10.1063/1.3186782

  1444. Micromagnetic computer simulations of spin waves in nanometre-scale patterned magnetic elements,
    S.-K. Kim,
    Journal of Physics D: Applied Physics, 43, 264004 (25 pages) (Jun 2010). doi: 10.1088/0022-3727/43/26/264004

  1445. Pinning of a Bloch point by an atomic lattice,
    Se Kwon Kim and Oleg Tchernyshyov,
    Physical Review B, 88, 174402 (6 pages) (Nov 2013). doi: 10.1103/PhysRevB.88.174402

  1446. Propulsion of a domain wall in an antiferromagnet by magnons,
    Se Kwon Kim, Yaroslav Tserkovnyak, and Oleg Tchernyshyov,
    Physical Review B, 90, 104406 (15 pages) (Sep 2014). doi: 10.1103/PhysRevB.90.104406

  1447. Magnetic domain walls as hosts of spin superfluids and generators of skyrmions,
    Se Kwon Kim and Yaroslav Tserkovnyak,
    Physical Review Letters, 119, 047202 (6 pages) (Jul 2017). doi: 10.1103/PhysRevLett.119.047202

  1448. Correlative magnetic imaging of heat-assisted magnetic recording media in cross section using Lorentz TEM and MFM,
    Taeho Roy Kim, Charudatta Phatak, Amanda K. Petford-Long, Yunzhi Liu, Chad Taylor, Bing Zhang, Sharon Myers, Andrea Greene, Tomoko Seki, Michael Alex, Gerardo A. Bertero, and Robert Sinclair,
    IEEE Transactions on Magnetics, 54, 6500105 (5 pages) (Jan 2018). doi: 10.1109/TMAG.2017.2753170

  1449. Magnetic domains in H-mediated Zn0.9Co0.1O microdisk arrays,
    Won-Kyung Kim, Miyeon Cheon, Seunghun Lee, Tae-Woo Lee, Jung Jin Park, Chae Ryong Cho, Chul Hong Park, Ichiro Takeuchi, and Se-Young Jeong,
    RSC Advances, 6, 57375-57379 (Jun 2016). doi: 10.1039/C6RA05746B

  1450. Impact of thermal fluctuations on transport in antiferromagnetic semimetals,
    Youngseok Kim, Moon Jip Park, David G. Cahill, and Matthew J. Gilbert,
    Physical Review B, 98, 024409 (15 pages) (Jul 2018). doi: 10.1103/PhysRevB.98.024409

  1451. Suppressed pinning field of a trapped domain wall due to direct current injection,
    T. Kimura, Y. Otani, I. Yagi, K. Tsukagoshi, and Y. Aoyagi,
    Journal of Applied Physics, 94, 7266-7269 (Dec 2003). doi: 10.1063/1.1618941

  1452. Vortex motion in chilarity-controlled pair of magnetic disks,
    T. Kimura, Y. Otani, H. Masaki, T. Ishida, R. Antos, and J. Shibata,
    Applied Physics Letters, 90, 132501 (3 pages) (Mar 2007). doi: 10.1063/1.2716861

  1453. Soft x-ray resonant magnetic scattering from an imprinted magnetic domain pattern,
    C.J. Kinane, A.K. Suszka, C.H. Marrows, B.J. Hickey, D.A. Arena, J. Dvorak, T.R. Charlton, and Sean Langridge,
    Applied Physics Letters, 89, 092507 (3 pages) (Sep 2006). doi: 10.1063/1.2344935

  1454. Application and future of photoelectron spectromicroscopy,
    T. Kinoshita,
    Journal of Electron Spectroscopy and Related Phenomena, 124, 175-194 (Jul 2002). doi: 10.1016/S0368-2048(02)00053-1

  1455. Effective anisotropy gradient in pressure graded [Co/Pd] multilayers,
    B.J. Kirby, P.K. Greene, B.B. Maranville, J.E. Davies, and Kai Liu,
    Journal of Applied Physics, 117, 063905 (4 pages) (Feb 2015). doi: 10.1063/1.4908140

  1456. Mapping magnetization states in ultrathin films with Dzyaloshinskii-Moriya interaction,
    J. Kisielewski, M. Kisielewski, V. Zablotskii, A. Dejneka, and A. Maziewski,
    New Journal of Physics, 21, 093022 (8 pages) (Sep 2019). doi: 10.1088/1367-2630/ab3737

  1457. Models and simulations for analysis of domain sizes in ultrathin magnetic films,
    M. Kisielewski, A. Maziewski, T. Polyakova, and V. Zablotskii,
    Journal of Magnetism and Magnetic Materials, 272-276, E825-E826 (May 2004). doi: 10.1016/j.jmmm.2003.12.162

  1458. Wide-scale evolution of magnetization distribution in ultrathin films,
    M. Kisielewski, A. Maziewski, T. Polyakova, and V. Zablotskii,
    Physical Review B, 69, 184419 (7 pages) (May 2004). doi: 10.1103/PhysRevB.69.184419

  1459. Description of giant changes of domain sizes in ultrathin magnetic films,
    M. Kisielewski, A. Maziewski, and V. Zablotskii,
    Journal of Magnetism and Magnetic Materials, 282, 39-43 (Nov 2004). doi: 10.1016/j.jmmm.2004.04.009

  1460. Magnetization distributions in nano-sized ultrathin cobalt,
    M. Kisielewski, A. Maziewski, and V. Zablotskii,
    Journal of Magnetism and Magnetic Materials, 290-291, 776-778 (Apr 2005). doi: 10.1016/j.jmmm.2004.11.403

  1461. New spin configurations in nano-sized magnets near reorientation phase transition,
    M. Kisielewski, A. Maziewski, and V. Zablotskii,
    physica status solidi (c), 3, 9-17 (Jan 2006). doi: 10.1002/pssc.200562444

  1462. Micromagnetic simulations and analytical description of magnetic configurations in nanosized magnets,
    M. Kisielewski, A. Maziewski, V. Zablotskii, and W. Stefanowicz,
    Physica B: Condensed Matter, 372, 316-319 (Feb 2006). doi: 10.1016/j.physb.2005.10.075

  1463. High cobalt layer thickness spin-reorientation phase transition,
    M. Kisielewski, A. Maziewski, and V. Zablotskii,
    Journal of Magnetism and Magnetic Materials, 316, 277-280 (Sep 2007). doi: 10.1016/j.jmmm.2007.02.133

  1464. Micromagnetic simulations of magnetization spatial distribution in ultrathin cobalt layers with gradient magnetic anisotropy,
    Marek Kisielewski, Jan Kisielewski, Iosif Sveklo, Andrzej Wawro, and A. Maziewski,
    IEEE Transactions on Magnetics, 53, 2301204 (4 pages) (Nov 2017). doi: 10.1109/TMAG.2017.2707127

  1465. Domain imaging of mesoscopic magnetic structures by photoelectron emission microscopy,
    H. Kiwata, T. Kihara, K. Ono, M. Oshima, T. Okuda, A. Harasawa, T. Kinoshita, and A. Yokoo,
    Surface Review and Letters, 9, 365-369 (Feb 2002). doi: 10.1142/S0218625X02002336

  1466. Switching properties of free-standing epitaxial ring magnets,
    M. Kläui, L. Lopez-Diaz, J. Rothman, C.A.F. Vaz, J.A.C. Bland, and Z. Cui,
    Journal of Magnetism and Magnetic Materials, 240, 7-10 (Feb 2002). doi: 10.1016/S0304-8853(01)00709-0

  1467. Domain wall pinning in narrow ferromagnetic ring structures probed by magnetoresistance measurements,
    M. Kläui, C.A.F. Vaz, J. Rothman, J.A.C. Bland, W. Wernsdorfer, G. Faini, and E. Cambril,
    Physical Review Letters, 90, 097202 (4 pages) (Mar 2003). doi: 10.1103/PhysRevLett.90.097202

  1468. Domain wall pinning and controlled magnetic switching in narrow ferromagnetic ring structures with notches,
    M. Kläui, C.A.F. Vaz, J.A.C. Bland, W. Wernsdorfer, G. Faini, and E. Cambril,
    Journal of Applied Physics, 93, 7885-7890 (May 2003). doi: 10.1063/1.1557758

  1469. Vortex formation in narrow ferromagnetic rings,
    M. Kläui, C.A.F. Vaz, L. Lopez-Diaz, and J.A.C. Bland,
    Journal of Physics: Condensed Matter, 15, R985-R1023 (Jun 2003). doi: 10.1088/0953-8984/15/21/201

  1470. Direct observation of spin configurations and classification of switching processes in mesoscopic ferromagnetic rings,
    M. Kläui, J.A.C. Bland, T.L. Monchesky, J. Unguris, E. Bauer, S. Cherifi, S. Heun, A. Locatelli, L.J. Heyderman, and Z. Cui,
    Physical Review B, 68, 134426 (5 pages) (Oct 2003). doi: 10.1103/PhysRevB.68.134426

  1471. Head-to-head domain-wall phase diagram in mesoscopic ring magnets,
    M. Kläui, C.A.F. Vaz, J.A.C. Bland, L.J. Heyderman, F. Nolting, A. Pavlovska, E. Bauer, S. Cherifi, S. Heun, and A. Locatelli,
    Applied Physics Letters, 85, 5637-5639 (2004). doi: 10.1063/1.1829800

  1472. Domain wall behaviour at constrictions in ferromagnetic ring structures,
    M. Kläui, C.A.F. Vaz, W. Wernsdorfer, E. Bauer, S. Cherifi, S. Heun, A. Locatelli, G. Faini, E. Cambril, and L.J. Heyderman,
    Physica B: Condensed Matter, 343, 343-349 (Jan 2004). doi: 10.1016/j.physb.2003.08.067

  1473. Spin configurations and classification of switching processes in ferromagnetic rings down to sub-100 nm dimensions,
    M. Kläui, C.A.F. Vaz, T.L. Monchesky, J. Unguris, E. Bauer, S. Cherifi, S. Heun, A. Locatelli, L.J. Heyderman, Z. Cui, and J.A.C. Bland,
    Journal of Magnetism and Magnetic Materials, 272-276, 1631-1636 (May 2004). doi: 10.1016/j.jmmm.2003.12.1365

  1474. Multistep switching phase diagram of ferromagnetic ring structures,
    M. Kläui, C.A.F. Vaz, J.A.C. Bland, L.J. Heyderman, C. David, E.H.C.P. Sinnecker, and A.P. Guimarães,
    Journal of Applied Physics, 95, 6639-6641 (Jun 2004). doi: 10.1063/1.1689491

  1475. Controlled and reproducible domain wall displacement by current pulses injected into ferromagnetic ring structures,
    M. Kläui, C.A.F. Vaz, J.A.C. Bland, W. Wernsdorfer, G. Faini, E. Cambril, L.J. Heyderman, F. Nolting, and U. Rüdiger,
    Physical Review Letters, 94, 106601 (4 pages) (Mar 2005). doi: 10.1103/PhysRevLett.94.106601

  1476. Direct observation of domain-wall pinning at nanoscale constrictions,
    M. Kläui, H. Ehrke, U. Rüdiger, T. Kasama, R.E. Dunin-Borkowski, D. Backes, L.J. Heyderman, C.A.F. Vaz, J.A.C. Bland, G. Faini, E. Cambril, and W. Wernsdorfer,
    Applied Physics Letters, 87, 102509 (3 pages) (Sep 2005). doi: 10.1063/1.2042542

  1477. Magnetic states in wide annular structures,
    M. Kläui, U. Rüdiger, C.A.F. Vaz, J.A.C. Bland, S. Cherifi, A. Locatelli, S. Heun, A. Pavlovska, E. Bauer, and L.J. Heyderman,
    Journal of Applied Physics, 99, 08G308 (3 pages) (Apr 2006). doi: 10.1063/1.2169485

  1478. Head-to-head domain walls in magnetic nanostructures,
    M. Kläui,
    Journal of Physics: Condensed Matter, 20, 313001 (20 pages) (Aug 2008). doi: 10.1088/0953-8984/20/31/313001

  1479. Effect of magnetization pinning on the spectrum of spin waves in magnonic antidot waveguides,
    J.W. Kłos, D. Kumar, J. Romero-Vivas, H. Fangohr, M. Franchin, M. Krawczyk, and A. Barman,
    Physical Review B, 86, 184433 (8 pages) (Nov 2012). doi: 10.1103/PhysRevB.86.184433

  1480. Magnonic band engineering by intrinsic and extrinsic mirror symmetry breaking in antidot spin-wave waveguides,
    J.W. Kłos, D. Kumar, M. Krawczyk, and A. Barman,
    Scientific Reports, 3, 2444 (8 pages) (Aug 2013). doi: 10.1038/srep02444

  1481. Influence of structural changes in a periodic antidot waveguide on the spin-wave spectra,
    J.W. Kłos, D. Kumar, M. Krawczyk, and A. Barman,
    Physical Review B, 89, 014406 (10 pages) (Jan 2014). doi: 10.1103/PhysRevB.89.014406

  1482. Magnetic energies of single submicron permalloy rectangles determined via magnetotransport,
    A. Kobs, H. Spahr, D. Stickler, S. Hankemeier, R. Frömter, and H.P. Oepen,
    Physical Review B, 80, 134415 (7 pages) (Oct 2009). doi: 10.1103/PhysRevB.80.134415

  1483. Synchronized excitation of magnetization dynamics via spin waves in Bi-YIG thin film by slot line waveguide,
    Tetsunori Koda, Sho Muroga, and Yasushi Endo,
    Applied Physics Letters, 116, 102403 (5 pages) (Mar 2020). doi: 10.1063/1.5143519

  1484. Lateral and vertical magnetic interactions in submicron-sized Fe ring arrays and Fe/Au/Fe trilayer ring structures,
    M. Kohda, K. Takagi, T. Miyawaki, K. Toyoda, A. Fujita, and J. Nitta,
    Japanese Journal of Applied Physics, 46, 2164-2166 (Apr 2007). doi: 10.1143/JJAP.46.2164

  1485. Suppression of stray field between adjacent rings in one-dimensional ferromagnetic ring arrays,
    M. Kohda, K. Toyoda, T. Miyawaki, A. Fujita, and J. Nitta,
    Journal of Applied Physics, 103, 07A714 (3 pages) (Apr 2008). doi: 10.1063/1.2838014

  1486. Magneto-optical Kerr effect studies of square artificial spin ice,
    K.K. Kohli, A.L. Balk, J. Li, S. Zhang, I. Gilbert, P.E. Lammert, V.H. Crespi, P. Schiffer, and N. Samarth,
    Physical Review B, 84, 180412 (5 pages) (Nov 2011). doi: 10.1103/PhysRevB.84.180412

  1487. Experimental evaluation of the ‘transport-of-intensity’ equation for magnetic phase reconstruction in Lorentz transmission electron microscopy,
    Amit Kohn, Avihay Habibi, and Martin Mayo,
    Ultramicroscopy, 160, 44-56 (Jan 2016). doi: 10.1016/j.ultramic.2015.09.011

  1488. Magnetization reversal with domain-wall pinning in (Ga, Mn)As wire,
    T. Koike, K. Hamaya, N. Funakoshi, Y. Takemura, Y. Kitamoto, and H. Munekata,
    IEEE Transactions on Magnetics, 41, 2742-2744 (Oct 2005). doi: 10.1109/TMAG.2005.854730

  1489. Domain structure and magnetotransport properties in (Ga,Mn)As wires,
    G. Koizumi, T. Kondo, K. Nomura, Y. Kitamoto, and H. Munekata,
    physica status solidi (c), 3, 4090-4093 (Jan 2007). doi: 10.1002/pssc.200672892

  1490. Anisotropy of magnetic properties in 2D arrays of permalloy antidots,
    I.A. Kolmychek, V.L. Krutyanskiy, K.S. Gusev, T.V. Murzina, N. Tahir, Z. Kurant, A. Maziewski, J. Ding, and A.O. Adeyeye,
    Journal of Magnetism and Magnetic Materials, 420, 1-6 (Dec 2016). doi: 10.1016/j.jmmm.2016.06.077

  1491. Micromagnetism in a planar system with a random magnetic anisotropy and two-dimensional magnetic correlations,
    S.V. Komogortsev, V.A. Fel’k, R.S. Iskhakov, and G.V. Shadrina,
    Journal of Experimental and Theoretical Physics, 125, 323-332 (Aug 2017). doi: 10.1134/S1063776117070196

  1492. The magnetic dipole-dipole interaction effect on the magnetic hysteresis at zero temperature in nanoparticles randomly dispersed within a plane,
    S.V. Komogortsev, V.A. Fel’k, and O.A. Li,
    Journal of Magnetism and Magnetic Materials, 473, 410-415 (Mar 2019). doi: 10.1016/j.jmmm.2018.10.091

  1493. Fractal dimension effect on the magnetization curves of exchange-coupled clusters of magnetic nanoparticles,
    S.V. Komogortsev, R.S. Iskhakov, and V.A. Fel’k,
    Journal of Experimental and Theoretical Physics, 128, 754-760 (May 2019). doi: 10.1134/S1063776119040095

  1494. Magnetic hysteresis of blocked ferrihydrite nanoparticles,
    S.V. Komogortsev, D.A. Balaev, A.A. Krasikov, S.V. Stolyar, R.N. Yaroslavtsev, V.P. Ladygina, and R.S. Iskhakov,
    AIP Advances, 11, 015329 (4 pages) (Jan 2021). doi: 10.1063/9.0000111

  1495. Square plate shaped magnetite nanocrystals,
    S.V. Komogortsev, S.V. Stolyar, L.A. Chekanova, R.N. Yaroslavtsev, O.A. Bayukov, D.A. Velikanov, M.N. Volochaev, P.E. Eroshenko, and R.S. Iskhakov,
    Journal of Magnetism and Magnetic Materials, 527, 167730 (6 pages) (Jun 2021). doi: 10.1016/j.jmmm.2021.167730

  1496. Magnetization ground states and phase diagrams for a nanosized Co hollow sphere: An onion-type magnetization state,
    D. Kong, S. Wang, and C. Chen,
    Journal of Applied Physics, 104, 13923 (6 pages) (Jul 2008). doi: 10.1063/1.2952029

  1497. Linear dependence of skyrmion velocity on response resonance frequency of local magnetization,
    Lingwen Kong, Lan Bo, Rongzhi Zhao, Chenglong Hu, Lianze Ji, Yanhui Zhang, and Xuefeng Zhang,
    Applied Physics Letters, 116, 192407 (5 pages) (May 2020). doi: 10.1063/5.0004649

  1498. The modes of skyrmionium motion induced by vacancy defects on a racetrack,
    Lingwen Kong, Lan Bo, Rongzhi Zhao, Chenglong Hu, Lianze Ji, Wenchao Chen, Yixing Li, Yanhui Zhang, and Xuefeng Zhang,
    Journal of Magnetism and Magnetic Materials, 537, 168173 (7 pages) (Nov 2021). doi: 10.1016/j.jmmm.2021.168173

  1499. Shape-dependent magnetization reversal processes and flux-closure configurations of microstructured epitaxial Fe(110) elements,
    C. König, M. Sperlich, R. Heinesch, R. Calarco, J.O. Hauch, U. Rüdiger, G. Güntherodt, S. Kirsch, B. Özyilmaz, and A.D. Kent,
    Applied Physics Letters, 79, 3648-3650 (Nov 2001). doi: 10.1063/1.1418033

  1500. Formation and control of magnetic vortex chirality in patterned micromagnet arrays,
    M. Konoto, T. Yamada, K. Koike, H. Akoh, T. Arima, and Y. Tokura,
    Journal of Applied Physics, 103, 023904 (4 pages) (Jan 2008). doi: 10.1063/1.2828177

  1501. Direct imaging of local spin orientation within artificial nanomagnets,
    M. Konoto, A. Fukushima, R. Matsumoto, H. Kubota, K. Yakushiji, A. Sawa, S. Yuasa, and K. Ando,
    Applied Physics Express, 3, 063001 (3 pages) (May 2010). doi: 10.1143/APEX.3.063001

  1502. On the mechanism of hysteresis in conductance of point contacts to single ferromagnetic films,
    A. Konovalenko, V. Korenivski, I.K. Yanson, Y.G. Naidyuk, V.V. Fisun, O.P. Balkashin, and L.Y. Triputen,
    Journal of Applied Physics, 101, 09A513 (3 pages) (May 2007). doi: 10.1063/1.2696709

  1503. Spin dynamics of two-coupled nanomagnets in spin-flop tunnel junctions,
    A. Konovalenko, E. Lindgren, S.S. Cherepov, V. Korenivski, and D.C. Worledge,
    Physical Review B, 80, 144425 (6 pages) (Oct 2009). doi: 10.1103/PhysRevB.80.144425

  1504. Relaxation-free and inertial switching in synthetic antiferromagnets subject to super-resonant excitation,
    B.C. Koop, T. Descamps, E. Holmgren, and V. Korenivski,
    IEEE Transactions on Magnetics, 53, 4300505 (5 pages) (Nov 2017). doi: 10.1109/TMAG.2017.2707589

  1505. Shape dependence of the magnetization reversal in sub-µm magnetic tunnel junctions,
    H. Koop, H. Brückl, D. Meyners, and G. Reiss,
    Journal of Magnetism and Magnetic Materials, 272-276, E1475-E1476 (May 2004). doi: 10.1016/j.jmmm.2003.12.412

  1506. Effect of Fe3O4 nanoparticles on CoFeB/Ta/CoFeB spin-valve magnetoresistance probed by microwave absorption,
    Oksana Koplak, Ruslan Allayarov, Ekaterina Kunitsyna, and Roman Morgunov,
    IEEE Transactions on Magnetics, 58, 2800805 (5 pages) (Aug 2022). doi: 10.1109/TMAG.2022.3151060

  1507. Magnetization reversal of ferromagnetic CoFeB films and CoFeB/Ta/CoFeB heterostructures in the stray field of Fe/Fe3O4 nanoparticles,
    O.V. Koplak, E.I. Kunitsyna, R.S. Allayarov, S. Mangin, N.V. Granovskii, and R.B. Morgunov,
    Journal of Experimental and Theoretical Physics, 131, 607-617 (Oct 2020). doi: 10.1134/S1063776120090046

  1508. Towards denoising XMCD movies of fast magnetization dynamics using extended Kalman filter,
    Michael Kopp, S. Harmeling, G. Schütz, B. Schölkopf, and M. Fähnle,
    Ultramicroscopy, 148, 115-122 (Jan 2015). doi: 10.1016/j.ultramic.2014.10.001

  1509. The nucleation of the spin spiral in epitaxial SmCo5/Fe/SmCo5 exchange spring trilayers,
    Martin Kopte, Simon Sawatzki, Ludwig Schultz, and Volker Neu,
    IEEE Transactions on Magnetics, 47, 3736-3739 (Oct 2011). doi: 10.1109/TMAG.2011.2154303

  1510. Two-magnon scattering in permalloy thin films due to rippled substrates,
    M. Körner, K. Lenz, R.A. Gallardo, M. Fritzsche, A. Mücklich, S. Facsko, J. Lindner, P. Landeros, and J. Fassbender,
    Physical Review B, 88, 054405 (10 pages) (Aug 2013). doi: 10.1103/PhysRevB.88.054405

  1511. Quantitative imaging of the magnetic configuration of modulated nanostructures by electron holography,
    Michael Körner, Falk Röder, Kilian Lenz, Monika Fritzsche, Jürgen Lindner, Hannes Lichte, and Jürgen Fassbender,
    Small, 10, 5161-5169 (Jul 2014). doi: 10.1002/smll.201400377

  1512. Numerical simulation of the influence of inhomogeneities on the properties of magnetization nanostructures,
    L.G. Korzunin and I.M. Izmozherov,
    Physics of Metals and Metallography, 122, 169-196 (Mar 2021). doi: 10.1134/S0031918X21030091

  1513. Fabrication of nanoscale rings, dots, and rods by combining shadow nanosphere lithography and annealed polystyrene nanosphere masks,
    Adam Kosiorek, Witold Kandulski, Hanna Glaczynska, and Michael Giersig,
    Small, 1, 439-444 (Feb 2005). doi: 10.1002/smll.200400099

  1514. Propagating volume and localized spin wave modes on a lattice of circular magnetic antidots,
    Mikhail Kostylev, Gianluca Gubbiotti, Giovanni Carlotti, Giovanni Socino, Silvia Tacchi, Chenchen Wang, Navab Singh, Adekunle O. Adeyeye, and Robert L. Stamps,
    Journal of Applied Physics, 103, 07C507 (3 pages) (Apr 2008). doi: 10.1063/1.2831792

  1515. Ferromagnetic resonance investigation of macroscopic arrays of magnetic nanoelements fabricated using polysterene nanosphere lithographic mask technique,
    M. Kostylev, R. Magaraggia, F.Y. Ogrin, E. Sirotkin, V.F. Mescheryakov, N. Ross, and R.L. Stamps,
    IEEE Transactions on Magnetics, 44, 2741-2744 (Nov 2008). doi: 10.1109/TMAG.2008.2002475

  1516. Mirror symmetry in magnetization reversal and coexistence of positive and negative exchange bias in Ni/FeF2,
    M. Kovylina, M. Erekhinsky, R. Morales, I.K. Schuller, A. Labarta, and X. Batlle,
    Applied Physics Letters, 98, 152507 (3 pages) (Apr 2011). doi: 10.1063/1.3577648

  1517. Magnetization reversal in Ni/FeF2 heterostructures with the coexistence of positive and negative exchange bias,
    Miroslavna Kovylina, Rafael Morales, Amílcar Labarta, and Xavier Batlle,
    Physical Review B, 86, 224414 (9 pages) (Dec 2012). doi: 10.1103/PhysRevB.86.224414

  1518. Tunable magnetic properties of monoatomic metal-oxide Fe/MgO multilayers,
    A. Kozioł-Rachwał, T. Ślęzak, K. Matlak, P. Kuświk, M. Urbaniak, F. Stobiecki, L.D. Yao, S. van Dijken, and J. Korecki,
    Physical Review B, 90, 045428 (7 pages) (Jul 2014). doi: 10.1103/PhysRevB.90.045428

  1519. Interlayer exchange coupling, dipolar coupling and magnetoresistance in Fe/MgO/Fe trilayers with a subnanometer MgO barrier,
    A. Kozioł-Rachwał, W. Skowroński, M. Frankowski, J. Chęciński, S. Ziętek, P. Rzeszut, M. Ślęzak, K. Matlak, T. Ślęzak, T. Stobiecki, and J. Korecki,
    Journal of Magnetism and Magnetic Materials, 424, 189-193 (Feb 2017). doi: 10.1016/j.jmmm.2016.09.131

  1520. Effective magnetic anisotropy manipulation by oblique deposition in magnetostatically coupled Co nanostrip arrays,
    A.G. Kozlov, M.E. Stebliy, A.V. Ognev, A.S. Samardak, A.V. Davydenko, and L.A. Chebotkevich,
    Journal of Magnetism and Magnetic Materials, 422, 452-457 (Jan 2017). doi: 10.1016/j.jmmm.2016.07.002

  1521. Induced magnetic anisotropies dependent micromagnetic structure of epitaxial Co nanostrip arrays,
    A.G. Kozlov, E.V. Pustovalov, A.G. Kolesnikov, L.A. Chebotkevich, and A.S. Samardak,
    Journal of Magnetism and Magnetic Materials, 459, 118-124 (Aug 2018). doi: 10.1016/j.jmmm.2017.11.093

  1522. Self-trapping of magnetic oscillation modes in Landau flux-closure structures,
    A. Krasyuk, F. Wegelin, S.A. Nepijko, H.J. Elmers, G. Schönhense, M. Bolte, and C.M. Schneider,
    Physical Review Letters, 95, 207201 (4 pages) (Nov 2005). doi: 10.1103/PhysRevLett.95.207201

  1523. Equilibrium magnetisation structures in ferromagnetic nanorings,
    V.P. Kravchuk, D.D. Sheka, and Y.B. Gaididei,
    Journal of Magnetism and Magnetic Materials, 310, 116-125 (Mar 2007). doi: 10.1016/j.jmmm.2006.07.035

  1524. Controlled vortex core switching in a magnetic nanodisk by a rotating field,
    V.P. Kravchuk, D.D. Sheka, Y. Gaididei, and F.G. Mertens,
    Journal of Applied Physics, 102, 043908 (4 pages) (Aug 2007). doi: 10.1063/1.2770819

  1525. Thin ferromagnetic nanodisk in transverse magnetic field,
    V.P. Kravchuk and D.D. Sheka,
    Physics of the Solid State, 49, 1923-1931 (Oct 2007). doi: 10.1134/S1063783407100186

  1526. Nucleation of a vortex-antivortex pair in the presence of an immobile magnetic vortex,
    V.P. Kravchuk, Y. Gaididei, and D.D. Sheka,
    Physical Review B, 80, 100405 (4 pages) (Sep 2009). doi: 10.1103/PhysRevB.80.100405

  1527. Off-centred immobile magnetic vortex under influence of spin-transfer torque,
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    Journal of Physics D: Applied Physics, 44, 285001 (7 pages) (Jun 2011). doi: 10.1088/0022-3727/44/28/285001

  1528. Periodic magnetization structures generated by transverse spin current in magnetic nanowires,
    Volodymyr P. Kravchuk, Oleksii M. Volkov, Denis D. Sheka, and Yuri Gaididei,
    Physical Review B, 87, 224402 (9 pages) (Jun 2013). doi: 10.1103/PhysRevB.87.224402

  1529. Solitary wave excitations of skyrmion strings in chiral magnets,
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    Physical Review B, 102, 220408 (6 pages) (Dec 2020). doi: 10.1103/PhysRevB.102.220408

  1530. Synthetic ferrimagnets with thermomagnetic switching,
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    Physical Review B, 90, 104427 (9 pages) (Sep 2014). doi: 10.1103/PhysRevB.90.104427

  1531. Micromagnetic behavior of electrodeposited NiFe/Cu multilayered nanowires,
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    IEEE Transactions on Magnetics, 48, 2455-2460 (Sep 2012). doi: 10.1109/TMAG.2012.2196441

  1532. Nanomagnetism and spin electronics: Materials, microstructure and novel properties,
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  1533. Remote Walker breakdown and coupling breaking in parallel nanowire systems,
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    Applied Physics Letters, 105, 042404 (4 pages) (Jul 2014). doi: 10.1063/1.4891502

  1534. Large-amplitude coherent spin waves excited by spin-polarized current in nanoscale spin valves,
    I.N. Krivorotov, D.V. Berkov, N.L. Gorn, N.C. Emley, J.C. Sankey, D.C. Ralph, and R.A. Buhrman,
    Physical Review B, 76, 24418 (14 pages) (Jul 2007). doi: 10.1103/PhysRevB.76.024418

  1535. Dipolar-energy-activated magnetic domain pattern transformation driven by thermal fluctuations,
    M. Kronseder, M. Buchner, H.G. Bauer, and C.H. Back,
    Nature communications, 4, 2054 (6 pages) (Jun 2013). doi: 10.1038/ncomms3054

  1536. Current-driven domain-wall dynamics in curved ferromagnetic nanowires,
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    Physical Review B, 75, 54421 (9 pages) (Feb 2007). doi: 10.1103/PhysRevB.75.054421

  1537. Harmonic oscillator model for current-and field-driven magnetic vortices,
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    Physical Review B, 76, 224426 (5 pages) (Dec 2007). doi: 10.1103/PhysRevB.76.224426

  1538. Proposal of a robust measurement scheme for the nonadiabatic spin torque using the displacement of magnetic vortices,
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    Physical Review Letters, 104, 077201 (4 pages) (Feb 2010). doi: 10.1103/PhysRevLett.104.077201

  1539. The interaction of transverse domain walls,
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    Journal of Physics: Condensed Matter, 24, 024209 (9 pages) (Jan 2012). doi: 10.1088/0953-8984/24/2/024209

  1540. Precessional dynamics in microarrays of nanomagnets,
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    Journal of Applied Physics, 97, 10A706 (3 pages) (Apr 2005). doi: 10.1063/1.1849057

  1541. Picosecond magnetization dynamics in nanomagnets: Crossover to nonuniform precession,
    V.V. Kruglyak, A. Barman, R.J. Hicken, J.R. Childress, and J.A. Katine,
    Physical Review B, 71, 220409(R) (4 pages) (Jun 2005). doi: 10.1103/PhysRevB.71.220409

  1542. Time resolved studies of edge modes in magnetic nanoelements,
    V.V. Kruglyak, P.S. Keatley, R.J. Hicken, J.R. Childress, and J.A. Katine,
    Journal of Applied Physics, 99, 08F306 (5 pages) (Apr 2006). doi: 10.1063/1.2177346

  1543. Magnonics: Experiment to prove the concept,
    V.V. Kruglyak and R.J. Hicken,
    Journal of Magnetism and Magnetic Materials, 306, 191-194 (Nov 2006). doi: 10.1016/j.jmmm.2006.02.242

  1544. Dynamic configurational anisotropy in nanomagnets,
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    Physical Review B, 75, 24407 (6 pages) (Jan 2007). doi: 10.1103/PhysRevB.75.024407

  1545. Imaging collective magnonic modes in 2D arrays of magnetic nanoelements,
    V.V. Kruglyak, P.S. Keatley, A. Neudert, R.J. Hicken, J.R. Childress, and J.A. Katine,
    Physical Review Letters, 104, 027201 (4 pages) (Jan 2010). doi: 10.1103/PhysRevLett.104.027201

  1546. Second harmonic generation in magnetic nanoparticles with vortex magnetic state,
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    Physical Review B, 88, 094424 (6 pages) (Sep 2013). doi: 10.1103/PhysRevB.88.094424

  1547. On the use of differential permeability and magnetic Barkhausen noise measurements for magnetic NDT applications,
    Aphrodite Ktena, Mehrija Hasicic, Fernando J.G. Landgraf, Eleni Moudilou, Spyridon Angelopoulos, and Evangelos Hristoforou,
    Journal of Magnetism and Magnetic Materials, 546, 168898 (9 pages) (Mar 2022). doi: 10.1016/j.jmmm.2021.168898

  1548. High-frequency vortex-based spin transfer nano-oscillators,
    Pui Sze Ku, Qi Shao, and Antonio Ruotolo,
    IEEE Transactions on Magnetics, 50, 1401604 (4 pages) (Jul 2014). doi: 10.1109/TMAG.2013.2292932

  1549. Spin-polarized scanning tunneling microscopy with antiferromagnetic probe tips,
    A. Kubetzka, M. Bode, O. Pietzsch, and R. Wiesendanger,
    Physical Review Letters, 88, 057201 (4 pages) (Jan 2002). doi: 10.1103/PhysRevLett.88.057201

  1550. Spin-polarized scanning tunneling microscopy study of 360° walls in an external magnetic field,
    A. Kubetzka, O. Pietzsch, M. Bode, and R. Wiesendanger,
    Physical Review B, 67, 020401(R) (4 pages) (Jan 2003). doi: 10.1103/PhysRevB.67.020401

  1551. Magnetization dynamics of single and trilayer permalloy nanodots,
    Mahathi Kuchibhotla, Abhishek Talapatra, Arabinda Haldar, and Adekunle Olusola Adeyeye,
    Journal of Applied Physics, 130, 083906 (7 pages) (Aug 2021). doi: 10.1063/5.0060689

  1552. Field orientation dependent magnetization reversal and dynamics in sub-100 nm wide Permalloy nanowires,
    Mahathi Kuchibhotla, Abhishek Talapatra, Arabinda Haldar, and Adekunle Olusola Adeyeye,
    Journal of Physics D: Applied Physics, 55, 335001 (9 pages) (Jun 2022). doi: 10.1088/1361-6463/ac72cf

  1553. Field angle dependent resonant dynamics of artificial spin ice lattices,
    Mahathi Kuchibhotla, Arabinda Haldar, and Adekunle Olusola Adeyeye,
    Nanotechnology, 34, 325302 (11 pages) (May 2023). doi: 10.1088/1361-6528/acd2e2

  1554. Antidot patterned single and bilayer thin films based on ferrimagnetic Tb-Co alloy with perpendicular magnetic anisotropy,
    N.A. Kulesh, M. Vázquez, V.N. Lepalovskij, and V.O. Vas’kovskiy,
    Nanotechnology, 29, 065301 (8 pages) (Jan 2018). doi: 10.1088/1361-6528/aaa2b8

  1555. Anisotropic magnetic properties of bi-layered structure of ordered Co nanowire array: Micromagnetic simulations and experiments,
    P.D. Kulkarni, Boominatha Sellarajan, M. Krishnan, Harish C. Barshilia, and P. Chowdhury,
    Journal of Applied Physics, 114, 173905 (8 pages) (Nov 2013). doi: 10.1063/1.4829034

  1556. Skyrmion racetrack memory with an antidot,
    Aroop Kumar Behera, Chandrasekhar Murapaka, Sougata Mallick, Braj Bhusan Singh, and Subhankar Bedanta,
    Journal of Physics D: Applied Physics, 54, 025001 (5 pages) (Oct 2020). doi: 10.1088/1361-6463/abb433

  1557. Numerical calculation of spin wave dispersions in magnetic nanostructures,
    Dheeraj Kumar, Oleksandr Dmytriiev, Sabareesan Ponraj, and Anjan Barman,
    Journal of Physics D: Applied Physics, 45, 015001 (10 pages) (Dec 2011). doi: 10.1088/0022-3727/45/1/015001

  1558. Effect of hole shape on spin-wave band structure in one-dimensional magnonic antidot waveguide,
    D. Kumar, P. Sabareesan, W. Wang, H. Fangohr, and A. Barman,
    Journal of Applied Physics, 114, 023910 (6 pages) (Jul 2013). doi: 10.1063/1.4813228

  1559. Magnonic band structure, complete bandgap, and collective spin wave excitation in nanoscale two-dimensional magnonic crystals,
    D. Kumar, J.W. Kłos, Maciej Krawczyk, and A. Barman,
    Journal of Applied Physics, 115, 043917 (8 pages) (Jan 2014). doi: 10.1063/1.4862911

  1560. Broadband and total autocollimation of spin waves using planar magnonic crystals,
    D. Kumar and A.O. Adeyeye,
    Journal of Applied Physics, 117, 143901 (5 pages) (Apr 2015). doi: 10.1063/1.4917053

  1561. Unconventional spin distributions in thick Ni80Fe20 nanodisks,
    D. Kumar, P. Lupo, A. Haldar, and A.O. Adeyeye,
    Applied Physics Letters, 108, 192404 (4 pages) (May 2016). doi: 10.1063/1.4948972

  1562. Techniques in micromagnetic simulation and analysis,
    D. Kumar and A.O. Adeyeye,
    Journal of Physics D: Applied Physics, 50, 343001 (19 pages) (Jul 2017). doi: 10.1088/1361-6463/aa7c04

  1563. Modification of structural and magnetic properties of masked Co-Pt films induced by high-energy ion implantation,
    Durgesh Kumar, Surbhi Gupta, Tianli Jin, Razia Nongjai, Kandasami Asokan, and S.N. Piramanayagam,
    IEEE Magnetics Letters, 9, 4500305 (5 pages) (Jan 2018). doi: 10.1109/LMAG.2017.2768324

  1564. Domain wall motion control for racetrack memory applications,
    Durgesh Kumar, Tianli Jin, S. Al Risi, Rachid Sbiaa, W.S. Lew, and S.N. Piramanayagam,
    IEEE Transactions on Magnetics, 55, 2300708 (8 pages) (Mar 2019). doi: 10.1109/TMAG.2018.2876622

  1565. Benchmarking of spin-orbit torque vs spin-transfer torque devices,
    Piyush Kumar and Azad Naeemi,
    Applied Physics Letters, 121, 112406 (7 pages) (Sep 2022). doi: 10.1063/5.0101265

  1566. High-density spin-orbit torque magnetic random access memory with voltage-controlled magnetic anisotropy/spin-transfer torque assist,
    Piyush Kumar and Azad Naeemi,
    IEEE Journal on Exploratory Solid-State Computational Devices and Circuits, 8, 185-193 (Dec 2022). doi: 10.1109/JXCDC.2022.3230925

  1567. Study of magnetization state transition in closely spaced nanomagnet two-dimensional array for computation,
    A. Kumari, S. Sarkar, J.F. Pulecio, D.K. Karunaratne, and S. Bhanja,
    Journal of Applied Physics, 109, 07E513 (3 pages) (Mar 2011). doi: 10.1063/1.3536795

  1568. Landauer clocking for magnetic cellular automata (MCA) arrays,
    A. Kumari and S. Bhanja,
    IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 19, 714-717 (Apr 2011). doi: 10.1109/TVLSI.2009.2036627

  1569. Performance analysis of STT-RAM with cross shaped free layer using Heusler alloys,
    Tangudu Bharat Kumary, Bahniman Ghosh, Bhaskar Awadhiya, and Ankit Kumar Verma,
    Journal of Semiconductors, 37, 014003 (4 pages) (Jan 2016). doi: 10.1088/1674-4926/37/1/014003

  1570. A general perspective on the magnetization reversal in cylindrical soft magnetic nanowires with dominant shape anisotropy,
    A. Kuncser, S. Antohe, and V. Kuncser,
    Journal of Magnetism and Magnetic Materials, 423, 34-38 (Feb 2017). doi: 10.1016/j.jmmm.2016.09.066

  1571. Advantages of CNT-MFM probes in observation of domain walls of soft magnetic materials,
    H. Kuramochi, T. Manago, D. Koltsov, M. Takenaka, M. Iitake, and H. Akinaga,
    Surface Science, 601, 5289-5293 (Nov 2007). doi: 10.1016/j.susc.2007.04.222

  1572. Material dependence of magnetic force microscopy performance using carbon nanotube probes: Experiments and simulation,
    H. Kuramochi, H. Asada, T. Uzumaki, H. Yui, M. Iitake, F. Takano, H. Akinaga, and T. Manago,
    Journal of Applied Physics, 115, 093907 (6 pages) (Mar 2014). doi: 10.1063/1.4867738

  1573. Magnetostatic coupling of 90° domain walls in Fe19Ni81/Cu/Co trilayers,
    J. Kurde, J. Miguel, D. Bayer, J. Sánchez-Barriga, F. Kronast, M. Aeschlimann, H.A. Dürr, and W. Kuch,
    New Journal of Physics, 13, 033015 (13 pages) (Mar 2011). doi: 10.1088/1367-2630/13/3/033015

  1574. Investigation of notch dept effect on domain wall depinning in ferromagnetic nanowires by micromagnetic simulation,
    Candra Kurniawan, Bambang Soegijono, and Dede Djuhana,
    IOP Conference Series: Materials Science and Engineering, 553, 012012 (6 pages) (Nov 2019). doi: 10.1088/1757-899X/553/1/012012

  1575. The diameter effect on the magnetization switching time of sphere-shaped ferromagnets using micromagnetic approach,
    C. Kurniawan, A.T. Widodo, and D. Djuhana,
    IOP Conference Series: Materials Science and Engineering, 902, 012060 (6 pages) (2020). doi: 10.1088/1757-899X/902/1/012060

  1576. Micromagnetic investigation of the sub-nanosecond magnetic pulse driven domain wall motion in CoFeB nanowire,
    Candra Kurniawan, Dede Djuhana, Bambang Soegijono, and Dong-Hyun Kim,
    Current Applied Physics, 27, 98-102 (Jul 2021). doi: 10.1016/j.cap.2021.04.017

  1577. Non-majority magnetic logic gates: A review of experiments and future prospects for ‘shape-based’ logic,
    S. Kurtz, E. Varga, M.J. Siddiq, M. Niemier, W. Porod, X.S. Hu, and G.H. Bernstein,
    Journal of Physics: Condensed Matter, 23, 053202 (13 pages) (Jan 2011). doi: 10.1088/0953-8984/23/5/053202

  1578. Colloidal domain lithography in multilayers with perpendicular anisotropy: An experimental study and micromagnetic simulations,
    Piotr Kuświk, Iosif Sveklo, Bogdan Szymański, Maciej Urbaniak, Feliks Stobiecki, Arno Ehresmann, Dieter Engel, Piotr Mazalski, Andrzej Maziewski, and Jacek Jagielski,
    Nanotechnology, 23, 475303 (9 pages) (Nov 2012). doi: 10.1088/0957-4484/23/47/475303

  1579. Large exchange-dominated domain wall velocities in antiferromagnetically coupled nanowires,
    Majd Kuteifan, M.V. Lubarda, S. Fu, R. Chang, M.A. Escobar, S. Mangin, E.E. Fullerton, and V. Lomakin,
    AIP Advances, 6, 045103 (6 pages) (Apr 2016). doi: 10.1063/1.4945789

  1580. Spin wave propagation properties across configurational antiferro/ferro-magnetic transitions,
    D. Kuźma, F. Montoncello, P. Sobieszczyk, A. Wal, L. Giovannini, and P. Zieliński,
    Journal of Applied Physics, 124, 223902 (11 pages) (Dec 2018). doi: 10.1063/1.5057419

  1581. Characteristics of domain wall chirality and propagation in a Y-junction nanowire,
    W.-Y. Kwak, Seungha Yoon, J.-H. Kwon, P. Grünberg, and B.K. Cho,
    Journal of Applied Physics, 119, 023904 (6 pages) (Jan 2016). doi: 10.1063/1.4939866

  1582. Low field domain wall dynamics in artificial spin-ice basis structure,
    J. Kwon, S. Goolaup, G.J. Lim, I.S. Kerk, C.H. Chang, K. Roy, and W.S. Lew,
    Journal of Applied Physics, 118, 163907 (4 pages) (Oct 2015). doi: 10.1063/1.4934733

  1583. Asymmetrical domain wall propagation in bifurcated PMA wire structure due to the Dzyaloshinskii-Moriya interaction,
    Jeasuk Kwon, Sarjoosing Goolaup, Wei Liang Gan, Chip Hong Chang, K. Roy, and Wen Siang Lew,
    Applied Physics Letters, 110, 232402 (5 pages) (Jun 2017). doi: 10.1063/1.4984750

  1584. Edge shape effect on switching behavior in a small ferromagnetic pattern,
    J.H. Kwon, H.C. Koo, H. Yi, and S.H. Han,
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  1585. Spin waves interference from rising and falling edges of electrical pulses,
    Jae Hyun Kwon, Sankha Subhra Mukherjee, Mahdi Jamali, Masamitsu Hayashi, and Hyunsoo Yang,
    Applied Physics Letters, 99, 132505 (3 pages) (Sep 2011). doi: 10.1063/1.3643156

  1586. Characterization of magnetostatic surface spin waves in magnetic thin films: Evaluation for microelectronic applications,
    Jae Hyun Kwon, Sankha Subhra Mukherjee, Praveen Deorani, Masamitsu Hayashi, and Hyunsoo Yang,
    Applied Physics A: Materials Science and Processing, 111, 369-378 (Jan 2013). doi: 10.1007/s00339-012-7542-x

  1587. Influence of tantalum underlayer on magnetization dynamics in Ni81Fe19 films,
    Jae Hyun Kwon, Praveen Deorani, Jungbum Yoon, Masamitsu Hayashi, and Hyunsoo Yang,
    Applied Physics Letters, 107, 022401 (5 pages) (Jul 2015). doi: 10.1063/1.4926612

  1588. Giant nonreciprocal emission of spin waves in Ta/Py bilayers,
    Jae Hyun Kwon, Jungbum Yoon, Praveen Deorani, Jong Min Lee, Jaivardhan Sinha, Kyung-Jin Lee, Masamitsu Hayashi, and Hyunsoo Yang,
    Science Advances, 2, e1501892 (8 pages) (Jul 2016). doi: 10.1126/sciadv.1501892

  1589. Experimental evidence of multiple stable locations for a domain wall trapped by a submicron notch,
    D. Lacour, J.A. Katine, L. Folks, T. Block, J.R. Childress, M.J. Carey, and B.A. Gurney,
    Applied Physics Letters, 84, 1910-1912 (Mar 2004). doi: 10.1063/1.1686893

  1590. Stabilizing vortices in interacting nano-objects: A chemical approach,
    L.M. Lacroix, S. Lachaize, F. Hue, C. Gatel, T. Blon, R.P. Tan, J. Carrey, B. Warot-Fonrose, and B. Chaudret,
    Nano Letters, 12, 3245-3250 (Apr 2012). doi: 10.1021/nl3012616

  1591. Monopole defects and magnetic Coulomb blockade,
    S. Ladak, D. Read, T. Tyliszczak, W.R. Branford, and L.F. Cohen,
    New Journal of Physics, 13, 023023 (10 pages) (Feb 2011). doi: 10.1088/1367-2630/13/2/023023

  1592. Direct observation and control of magnetic monopole defects in an artificial spin-ice material,
    S. Ladak, D.E. Read, W.R. Branford, and L.F. Cohen,
    New Journal of Physics, 13, 063032 (11 pages) (Jun 2011). doi: 10.1088/1367-2630/13/6/063032

  1593. Disorder-independent control of magnetic monopole defect population in artificial spin-ice honeycombs,
    S. Ladak, S.K. Walton, K. Zeissler, T. Tyliszczak, D.E. Read, W.R. Branford, and L.F. Cohen,
    New Journal of Physics, 14, 045010 (12 pages) (Apr 2012). doi: 10.1088/1367-2630/14/4/045010

  1594. Head-to-head domain wall structures in tapered magnetic strips,
    E. Lage, J. Zhang, and C.A. Ross,
    IEEE Transactions on Magnetics, 53, 7100104 (4 pages) (Feb 2017). doi: 10.1109/TMAG.2016.2622228

  1595. Magnetization reversal in chemically synthesized chains of permalloy nanospheres,
    Pinaki Laha, Bipul Kumar Mahato, Rabindranath Gayen, Subhadeep Datta, and Rajdeep Singh Rawat,
    Applied Physics A, 128, 394 (7 pages) (May 2022). doi: 10.1007/s00339-022-05519-8

  1596. Controlling supercurrents and their spatial distribution in ferromagnets,
    Kaveh Lahabi, Morten Amundsen, Jabir Ali Ouassou, Ewout Beukers, Menno Pleijster, Jacob Linder, Paul Alkemade, and Jan Aarts,
    Nature Communications, 8, 2056 (7 pages) (Dec 2017). doi: 10.1038/s41467-017-02236-2

  1597. Electrical writing of magnetic domain patterns in ferromagnetic/ferroelectric heterostructures,
    Tuomas H.E. Lahtinen, Jussi O. Tuomi, and Sebastiaan van Dijken,
    IEEE Transactions on Magnetics, 47, 3768-3771 (Oct 2011). doi: 10.1109/TMAG.2011.2143393

  1598. Electric-field control of magnetic domain wall motion and local magnetization reversal,
    T.H.E. Lahtinen, K.J.A. Franke, and S. van Dijken,
    Scientific reports, 2, 258 (6 pages) (Feb 2012). doi: 10.1038/srep00258

  1599. Motion of skyrmions in well-separated two-lane racetracks,
    P. Lai, G.P. Zhao, F.J. Morvan, S.Q. Wu, and N. Ran,
    SPIN, 07, 1740006 (8 pages) (Mar 2017). doi: 10.1142/s2010324717400069

  1600. An improved racetrack structure for transporting a skyrmion,
    P. Lai, G.P. Zhao, H. Tang, N. Ran, S.Q. Wu, J. Xia, X. Zhang, and Y. Zhou,
    Scientific Reports, 7, 45330 (8 pages) (Mar 2017). doi: 10.1038/srep45330

  1601. Deterministic switching of the magnetization states in cobalt nanorings,
    Manohar Lal, S. Sakshath, and P.S. Anil Kumar,
    IEEE Magnetics Letters, 7, 2507505 (5 pages) (Dec 2016). doi: 10.1109/LMAG.2016.2612167

  1602. Control of stable magnetization states in permalloy nanorings using magnetic nanowires,
    Manohar Lal, S. Sakshath, D. Venkateswarlu, and P.S. Anil Kumar,
    Journal of Magnetism and Magnetic Materials, 448, 153-158 (Feb 2018). doi: 10.1016/j.jmmm.2017.06.097

  1603. Control of vortex state in cobalt nanorings with domain wall pinning centers,
    Manohar Lal, S. Sakshath, Vineeth Mohanan Parakkat, and P.S. Anil Kumar,
    AIP Advances, 8, 056023 (5 pages) (May 2018). doi: 10.1063/1.5007239

  1604. Spin-current-induced dynamics in ferromagnetic nanopillars of lateral spin-valve structures,
    J.-B. Laloë, T. Yang, T. Kimura, and Y. Otani,
    Journal of Applied Physics, 105, 07D110 (3 pages) (Feb 2009). doi: 10.1063/1.3058621

  1605. Spin-dependent transport in a nanopillar non-local spin valve,
    J.B. Laloë, T. Yang, T. Kimura, and Y. Otani,
    Journal of Magnetism and Magnetic Materials, 321, 3829-3832 (Nov 2009). doi: 10.1016/j.jmmm.2009.07.045

  1606. Cascade-like signal propagation in chains of concave nanomagnets,
    B. Lambson, Z. Gu, D. Carlton, S. Dhuey, A. Scholl, A. Doran, A. Young, and J. Bokor,
    Applied Physics Letters, 100, 152406 (4 pages) (Apr 2012). doi: 10.1063/1.3703591

  1607. Concave nanomagnets: Investigation of anisotropy properties and applications to nanomagnetic logic,
    Brian Lambson, Zheng Gu, Morgan Monroe, Scott Dhuey, Andreas Scholl, and Jeffrey Bokor,
    Applied Physics A: Materials Science and Processing, 111, 413-421 (Mar 2013). doi: 10.1007/s00339-013-7654-y

  1608. Stability of magnetic configurations in nanorings,
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  1609. Bloch points in nanostrips,
    Martin Lang, Marijan Beg, Ondrej Hovorka, and Hans Fangohr,
    Scientific Reports, 13, 6910 (12 pages) (Apr 2023). doi: 10.1038/s41598-023-33998-z

  1610. Vortex dynamics in nonparabolic potentials,
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    Physical Review B, 85, 174436 (7 pages) (May 2012). doi: 10.1103/PhysRevB.85.174436

  1611. Inductive detection of magnetic vortex gyration,
    Hauke H. Langner, Lars Bocklage, Toru Matsuyama, and Guido Meier,
    Physical Review B, 87, 064420 (6 pages) (Feb 2013). doi: 10.1103/PhysRevB.87.064420

  1612. Magnetization reversal in Py/Gd heterostructures,
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    Physical Review B, 96, 024418 (10 pages) (Jul 2017). doi: 10.1103/PhysRevB.96.024418

  1613. Origin of steps in magnetization loops of martensitic Ni-Mn-Ga films on MgO(001),
    Aleksej Laptev, Kristof Lebecki, Gesa Welker, Yuansu Luo, Konrad Samwer, and Mikhail Fonin,
    Applied Physics Letters, 109, 132405 (5 pages) (Sep 2016). doi: 10.1063/1.4963264

  1614. Observation of propagating edge spin waves modes,
    A. Lara, V. Metlushko, and F.G. Aliev,
    Journal of Applied Physics, 114, 213905 (5 pages) (Dec 2013). doi: 10.1063/1.4839315

  1615. Magnetization reversal assisted by half antivortex states in nanostructured circular cobalt disks,
    A. Lara, O.V. Dobrovolskiy, J.L. Prieto, M. Huth, and F.G. Aliev,
    Applied Physics Letters, 105, 182402 (5 pages) (Nov 2014). doi: 10.1063/1.4900789

  1616. Information processing in patterned magnetic nanostructures with edge spin waves,
    Antonio Lara, Javier Robledo Moreno, Konstantin Y. Guslienko, and Farkhad G. Aliev,
    Scientific Reports, 7, 5597 (12 pages) (Jul 2017). doi: 10.1038/s41598-017-05737-8

  1617. Rocking ratchet induced by pure magnetic potentials with broken reflection symmetry,
    D.P. de Lara, F.J. Castaño, B.G. Ng, H.S. Korner, R.K. Dumas, E.M. Gonzalez, K. Liu, C.A. Ross, I.K. Schuller, and J.L. Vicent,
    Physical Review B, 80, 224510 (7 pages) (Dec 2009). doi: 10.1103/PhysRevB.80.224510

  1618. Magnetic pinning of flux lattice in superconducting-nanomagnet hybrids,
    D. Perez de Lara, F.J. Castaño, B.G. Ng, H.S. Körner, R.K. Dumas, E.M. Gonzalez, Kai Liu, C.A. Ross, Ivan K. Schuller, and J.L. Vicent,
    Applied Physics Letters, 99, 182509 (3 pages) (Nov 2011). doi: 10.1063/1.3659292

  1619. Optimization of nanopatterned permalloy electrodes for a lateral hybrid spin-valve structure,
    T. Last, S. Hacia, M. Wahle, S.F. Fischer, and U. Kunze,
    Journal of Applied Physics, 96, 6706-6711 (Dec 2004). doi: 10.1063/1.1810197

  1620. Direct correlation of reversal rate dynamics to domain configurations in micron-sized permalloy elements,
    J.W. Lau, M. Beleggia, M.A. Schofield, G.F. Neumark, and Y. Zhu,
    Journal of Applied Physics, 97, 10E702 (3 pages) (May 2005). doi: 10.1063/1.1851731

  1621. Correlation of edge roughness to nucleation field and nucleation field distribution in patterned Permalloy elements,
    J.W. Lau, R.D. McMichael, M.A. Schofield, and Y. Zhu,
    Journal of Applied Physics, 102, 023916 (4 pages) (Jul 2007). doi: 10.1063/1.2761850

  1622. Implementation of two-dimensional polycrystalline grains in Object Oriented Micromagnetic Framework,
    J.W. Lau, R.D. McMichael, and M.J. Donahue,
    Journal of Research of the National Institute of Standards and Technology, 114, 57-67 (Jan 2009). doi: 10.6028/jres.114.005

  1623. In situ tunneling measurements in a transmission electron microscope on nanomagnetic tunnel junctions,
    J.W. Lau, P. Morrow, J.C. Read, V. Höink, W.F. Egelhoff, L. Huang, and Y. Zhu,
    Applied Physics Letters, 96, 262508 (3 pages) (Jun 2010). doi: 10.1063/1.3446841

  1624. Observation of thermally activated domain wall transformations,
    M. Laufenberg, D. Backes, W. Bührer, D. Bedau, M. Kläui, U. Rüdiger, C.A.F. Vaz, J.A.C. Bland, L.J. Heyderman, F. Nolting, S. Cherifi, A. Locatelli, R. Belkhou, S. Heun, and E. Bauer,
    Applied Physics Letters, 88, 052507 (3 pages) (Jan 2006). doi: 10.1063/1.2168677

  1625. Temperature dependence of the spin torque effect in current-induced domain wall motion,
    M. Laufenberg, W. Bührer, D. Bedau, P.-E. Melchy, M. Kläui, L. Vila, G. Faini, C.A.F. Vaz, J.A.C. Bland, and U. Rüdiger,
    Physical Review Letters, 97, 046602 (4 pages) (Jul 2006). doi: 10.1103/PhysRevLett.97.046602

  1626. Modeling domain wall dynamics in thin magnetic strips with disorder,
    L. Laurson, A. Mughal, G. Durin, and S. Zapperi,
    IEEE Transactions on Magnetics, 46, 262-265 (Feb 2010). doi: 10.1109/TMAG.2009.2033819

  1627. Microwave-assisted switching of NiFe magnetic microstructures,
    M. Laval, J.J. Bonnefois, J.F. Bobo, F. Issac, and F. Boust,
    Journal of Applied Physics, 105, 073912 (6 pages) (Apr 2009). doi: 10.1063/1.3093949

  1628. Angular dependence of the coercivity and remanence of ordered arrays of Co nanowires,
    R. Lavín, C. Gallardo, J.L. Palma, J. Escrig, and J.C. Denardin,
    Journal of Magnetism and Magnetic Materials, 324, 2360-2362 (Aug 2012). doi: 10.1016/j.jmmm.2012.02.125

  1629. Dynamic origin of stripe domains,
    G. Leaf, H. Kaper, M. Yan, V. Novosad, P. Vavassori, R.E. Camley, and M. Grimsditch,
    Physical Review Letters, 96, 017201 (4 pages) (Jan 2006). doi: 10.1103/PhysRevLett.96.017201

  1630. Modelling of magnetization reversal for long ferromagnetic nanotubes,
    K.M. Lebecki,
    Materials Science-Poland, 26, 983-988 (2008).

  1631. Micromagnetic simulations of hysteresis in an array of cobalt nanotubes,
    K.M. Lebecki, O. Kazakova, and M.W. Gutowski,
    Physica B: Condensed Matter, 403, 360-363 (Feb 2008). doi: 10.1016/j.physb.2007.08.049

  1632. Periodic boundary conditions for demagnetization interactions in micromagnetic simulations,
    K.M. Lebecki, M.J. Donahue, and M.W. Gutowski,
    Journal of Physics D: Applied Physics, 41, 175005 (10 pages) (Sep 2008). doi: 10.1088/0022-3727/41/17/175005

  1633. Comment on “Frustrated magnetization in Co nanowires: Competition between crystal anisotropy and demagnetization energy”,
    K.M. Lebecki and M.J. Donahue,
    Physical Review B, 82, 096401 (4 pages) (Sep 2010). doi: 10.1103/PhysRevB.82.096401

  1634. Key role of temperature in ferromagnetic Bloch point simulations,
    K.M. Lebecki, D. Hinzke, U. Nowak, and O. Chubykalo-Fesenko,
    Physical Review B, 86, 094409 (5 pages) (Sep 2012). doi: 10.1103/PhysRevB.86.094409

  1635. Properties of magnetic vortices at elevated temperatures,
    Kristof M. Lebecki and Ulrich Nowak,
    Journal of Applied Physics, 113, 023906 (5 pages) (Jan 2013). doi: 10.1063/1.4774411

  1636. Ferromagnetic vortex core switching at elevated temperatures,
    Kristof M. Lebecki and Ulrich Nowak,
    Physical Review B, 89, 014421 (8 pages) (Jan 2014). doi: 10.1103/PhysRevB.89.014421

  1637. Fast vortex core switching at moderate temperatures,
    Kristof M. Lebecki and Ulrich Nowak,
    Acta Physica Polonica A, 127, 342-344 (2015). doi: 10.12693/APhysPolA.127.342

  1638. Fast vortex core switching at high temperatures,
    Kristof M. Lebecki and Dominik Legut,
    Journal of Magnetism and Magnetic Materials, 411, 7-11 (Aug 2016). doi: 10.1016/j.jmmm.2016.03.025

  1639. Magnetization reversal measurements in Gd/Fe multilayer antidot arrays by vector magnetometry using x-ray magnetic circular dichroism,
    D.R. Lee, Y. Choi, C.-Y. You, J.C. Lang, D. Haskel, G. Srajer, V. Metlushko, B. Ilic, and S.D. Bader,
    Applied Physics Letters, 81, 4997-4999 (Dec 2002). doi: 10.1063/1.1532552

  1640. Polarized neutron scattering from ordered magnetic domains on a mesoscopic Permalloy antidot array,
    D.R. Lee, G. Srajer, M.R. Fitzsimmons, V. Metlushko, and S.K. Sinha,
    Applied Physics Letters, 82, 82-84 (2003). doi: 10.1063/1.1534919

  1641. Domain-specific magnetization reversals on a Permalloy square ring array,
    D.R. Lee, J.W. Freeland, G. Srajer, V. Metlushko, and Chun-Yeol You,
    Journal of Applied Physics, 95, 7016-7018 (Jun 2004). doi: 10.1063/1.1668611

  1642. Magnetic bar array with linker technology for detection and investigation of nonmagnetic molecules,
    D.W. Lee, L.A. Roberts, E. Peroziello, R. Fontana, S. Maat, T. Boone, M. Nemat-Gorgani, S. Hoon, D. Huber, and R.L. White,
    IEEE Transactions on Magnetics, 44, 4468-4471 (Nov 2008). doi: 10.1109/TMAG.2008.2001517

  1643. Magnetization reversal process of the nanosized elliptical permalloy magnetic dots with various aspect ratios,
    Jehyun Lee, Kyuhwan Oh, Hi-Jung Kim, and Kwang Youn Kim,
    Journal of Magnetism and Magnetic Materials, 272-276, 736-737 (May 2004). doi: 10.1016/j.jmmm.2003.12.624

  1644. Non-contact long-range magnetic stimulation of mechanosensitive ion channels in freely moving animals,
    Jung-uk Lee, Wookjin Shin, Yongjun Lim, Jungsil Kim, Woon Ryoung Kim, Heehun Kim, Jae-Hyun Lee, and Jinwoo Cheon,
    Nature Materials, 20, 1029-1036 (Jan 2021). doi: 10.1038/s41563-020-00896-y

  1645. Influence of thermal excitation on magnetization states and switching routes of magnetic multilayer rings,
    J.H. Lee, T.J. Hayward, S.N. Holmes, B. Hong, J. Llandro, K. Cooper, D. Anderson, G.A.C. Jones, and C.H.W. Barnes,
    Journal of Applied Physics, 105, 07C107 (3 pages) (Feb 2009). doi: 10.1063/1.3070641

  1646. Magnetic remanent states and quasistatic switching behavior of Fe split-rings for spin field-effect-transistor applications,
    J.H. Lee, S.N. Holmes, B. Hong, P.E. Roy, M.D. Mascaro, T.J. Hayward, D. Anderson, K. Cooper, G.A.C. Jones, M.E. Vickers, C.A. Ross, and C.H.W. Barnes,
    Applied Physics Letters, 95, 172505 (3 pages) (Oct 2009). doi: 10.1063/1.3257360

  1647. Oscillatory spin-orbit torque switching induced by field-like torques,
    Jong Min Lee, Jae Hyun Kwon, Rajagopalan Ramaswamy, Jungbum Yoon, Jaesung Son, Xuepeng Qiu, Rahul Mishra, Shalabh Srivastava, Kaiming Cai, and Hyunsoo Yang,
    Communications Physics, 1, 2 (7 pages) (Feb 2018). doi: 10.1038/s42005-017-0002-3

  1648. Dynamics of transverse magnetic domain walls in rectangular-shape thin-film nanowires studied by micromagnetic simulations,
    Jun-Young Lee, Sangkook Choi, and Sang-Koog Kim,
    Journal of Magnetics, 11, 74-76 (Jun 2006). doi: 10.4283/JMAG.2006.11.2.074

  1649. Remarkable enhancement of domain-wall velocity in magnetic nanostripes,
    J.Y. Lee, K.S. Lee, and S.K. Kim,
    Applied Physics Letters, 91, 122513 (3 pages) (Sep 2007). doi: 10.1063/1.2789176

  1650. Dynamic transformations of the internal structure of a moving domain wall in magnetic nanostripes,
    Jun-Young Lee, Ki-Suk Lee, Sangkook Choi, Konstantin Y. Guslienko, and Sang-Koog Kim,
    Physical Review B, 76, 184408 (8 pages) (Nov 2007). doi: 10.1103/PhysRevB.76.184408

  1651. Femtosecond pump-probe MOKE microscopy for an ultrafast spin dynamics study,
    Kyeong-Dong Lee, Ji-Wan Kim, Jae-Woo Jeong, Dong-Hyun Kim, Sung-Chul Shin, Kyung-Han Hong, Yong Soo Lee, Chang Hee Nam, Maeng Ho Son, and Sung Woo Hwang,
    Journal of the Korean Physical Society, 49, 2402-2407 (Dec 2006).

  1652. Nonuniform apparent relaxation from dephasing of magnetostatic wave modes in a confined microdisk,
    Kyeong-Dong Lee, Ji-Wan Kim, Jae-Woo Jeong, and Sung-Chul Shin,
    Journal of Applied Physics, 106, 113904 (4 pages) (Dec 2009). doi: 10.1063/1.3262613

  1653. Dephasing in photoinduced large-angle spin precession of confined ferromagnetic structures,
    K.-D. Lee, K.-S. Ryu, J.-W. Kim, H.-S. Song, J.-W. Jeong, and S.-C. Shin,
    Physical Review B, 82, 140401 (4 pages) (Oct 2010). doi: 10.1103/PhysRevB.82.140401

  1654. Dissipative soliton dynamics in a discrete magnetic nano-dot chain,
    Kyeong-Dong Lee, Chun-Yeol You, Hyon-Seok Song, Byong-Guk Park, and Sung-Chul Shin,
    Applied Physics Letters, 104, 052416 (5 pages) (Feb 2014). doi: 10.1063/1.4864361

  1655. Speed and stability of magnetic chiral motion in a chain of asymmetric thin nanodots,
    Kyeong-Dong Lee, Young Min Kim, Hyon-Seok Song, Chun-Yeol You, Jung-Il Hong, and Byong-Guk Park,
    Applied Physics Express, 8, 103003 (4 pages) (Sep 2015). doi: 10.7567/APEX.8.103003

  1656. Vortex-antivortex pair driven magnetization dynamics studied by micromagnetic simulations,
    Ki-Suk Lee, Byeong-Woo Kang, Young-Sang Yu, and Sang-Koog Kim,
    Applied Physics Letters, 85, 1568-1570 (2004). doi: 10.1063/1.1784892

  1657. Radiation of spin waves from magnetic vortex cores by their dynamic motion and annihilation processes,
    Ki-Suk Lee, SangKook Choi, and Sang-Koog Kim,
    Applied Physics Letters, 87, 192502 (3 pages) (Nov 2005). doi: 10.1063/1.2128478

  1658. Gyrotropic linear and nonlinear motions of a magnetic vortex in soft magnetic nanodots,
    K.S. Lee and S.K. Kim,
    Applied Physics Letters, 91, 132511 (3 pages) (Sep 2007). doi: 10.1063/1.2783272

  1659. Two circular-rotational eigenmodes and their giant resonance asymmetry in vortex gyrotropic motions in soft magnetic nanodots,
    K.S. Lee and S.K. Kim,
    Physical Review B, 78, 14405 (6 pages) (Jul 2008). doi: 10.1103/PhysRevB.78.014405

  1660. Conceptual design of spin wave logic gates based on a Mach-Zehnder-type spin wave interferometer for universal logic functions,
    K.S. Lee and S.K. Kim,
    Journal of Applied Physics, 104, 053909 (4 pages) (Sep 2008). doi: 10.1063/1.2975235

  1661. Linear-versus-nonlinear behavior of magnetic vortex gyrotropic motions in soft magnetic nanodots,
    K.S. Lee and S.K. Kim,
    AAPPS Bulletin, 18, 25-28 (Oct 2008).

  1662. Universal criterion and phase diagram for switching a magnetic vortex core in soft magnetic nanodots,
    K.S. Lee, S.K. Kim, Y.S. Yu, Y.S. Choi, K.Y. Guslienko, H. Jung, and P. Fischer,
    Physical Review Letters, 101, 267206 (4 pages) (Dec 2008). doi: 10.1103/PhysRevLett.101.267206

  1663. Physical origin and generic control of magnonic band gaps of dipole-exchange spin waves in width-modulated nanostrip waveguides,
    K.S. Lee, D.S. Han, and S.K. Kim,
    Physical Review Letters, 102, 127202 (4 pages) (Mar 2009). doi: 10.1103/PhysRevLett.102.127202

  1664. Edge-soliton-mediated vortex-core reversal dynamics,
    K.-S. Lee, M.-W. Yoo, Y.-S. Choi, and S.-K. Kim,
    Physical Review Letters, 106, 147201 (4 pages) (Apr 2011). doi: 10.1103/PhysRevLett.106.147201

  1665. Normal modes of coupled vortex gyration in two spatially separated magnetic nanodisks,
    K.-S. Lee, H. Jung, D.-S. Han, and S.-K. Kim,
    Journal of Applied Physics, 110, 113903 (5 pages) (Dec 2011). doi: 10.1063/1.3662923

  1666. Magnetic imaging of a single ferromagnetic nanowire using diamond atomic sensors,
    Myeongwon Lee, Bumjin Jang, Jungbae Yoon, Mohan C. Mathpal, Yuhan Lee, Chulki Kim, Salvador Pane, Bradley J. Nelson, and Donghun Lee,
    Nanotechnology, 29, 405502 (7 pages) (Jul 2018). doi: 10.1088/1361-6528/aad2fe

  1667. Extended longitudinal vector and Bragg magneto-optic Kerr effect for the determination of the chirality distribution in magnetic vortices,
    Min-Sang Lee, Andreas Westphalen, Arndt Remhof, Alexandra Schumann, and Harmut Zabel,
    Journal of Applied Physics, 103, 093913 (13 pages) (May 2008). doi: 10.1063/1.2919160

  1668. Spin-torque-driven ballistic precessional switching with 50 ps impulses,
    O.J. Lee, D.C. Ralph, and R.A. Buhrman,
    Applied Physics Letters, 99, 102507 (3 pages) (Sep 2011). doi: 10.1063/1.3635782

  1669. Quasilinear spin-torque nano-oscillator via enhanced negative feedback of power fluctuations,
    O.J. Lee, P.M. Braganca, V.S. Pribiag, D.C. Ralph, and R.A. Buhrman,
    Physical Review B, 88, 224411 (10 pages) (Dec 2013). doi: 10.1103/PhysRevB.88.224411

  1670. Hydrogen lithography for nanomagnetic domain on Co-doped ZnO using an anodic aluminum oxide template,
    Seunghun Lee, Won-Kyung Kim, Yong Chan Cho, Bum-Su Kim, Ji Hun Park, Chang-Won Lee, YoungPak Lee, Sangbok Lee, Sean Fackler, Ichiro Takeuchi, Chae Ryong Cho, and Se-Young Jeong,
    Applied Physics Letters, 104, 052405 (4 pages) (Feb 2014). doi: 10.1063/1.4864150

  1671. Effect of carbon mixing on the perpendicular magnetization of FePt thin film on Pt/MgO(p) underlayer,
    S.H. Lee and J.K. Park,
    IEEE Transactions on Magnetics, 45, 2701-2704 (Jun 2009). doi: 10.1109/TMAG.2009.2018646

  1672. Effect of carbon mixing on the degree of perpendicular texture of FePt:C nanocomposite film for magnetic recording media,
    S.H. Lee and J.K. Park,
    Materials Chemistry and Physics, 118, 213-218 (Nov 2009). doi: 10.1016/j.matchemphys.2009.07.030

  1673. Effect of carbon mixing on the perpendicular magnetization of [FePt/C]n=4/FePt multilayer nanocomposite films,
    S.H. Lee and J.K. Park,
    Physica B: Condensed Matter, 404, 4321-4326 (Nov 2009). doi: 10.1016/j.physb.2009.08.029

  1674. Micromagnetic study of forced oscillation of magnetic domain wall in ferromagnetic nanowires with variation of damping constant,
    S.-H. Lee, J.-H. Shim, H.-G. Piao, S.-C. Yu, S.K. Oh, and D.-H. Kim,
    Journal of Superconductivity and Novel Magnetism, 25, 2795-2798 (Dec 2012). doi: 10.1007/s10948-011-1268-4

  1675. Tailoring the magnetic properties of Fe asymmetric nanodots,
    B. Leighton, N.M. Vargas, D. Altbir, and J. Escrig,
    Journal of Magnetism and Magnetic Materials, 323, 1563-1567 (Jun 2011). doi: 10.1016/j.jmmm.2011.01.019

  1676. Reversal modes in asymmetric Ni nanowires,
    B. Leighton, A. Pereira, and J. Escrig,
    Journal of Magnetism and Magnetic Materials, 324, 3829-3833 (Nov 2012). doi: 10.1016/j.jmmm.2012.06.023

  1677. The influence of the geometry of micro-patterned thin films on the effective permeability and resonance frequency by domains development,
    H. Leiste, K. Seemann, and C. Ziebert,
    Journal of Magnetism and Magnetic Materials, 322, 1385-1388 (May 2010). doi: 10.1016/j.jmmm.2009.05.051

  1678. Adaptively time stepping the stochastic Landau-Lifshitz-Gilbert equation at nonzero temperature: Implementation and validation in MuMax3,
    J. Leliaert, J. Mulkers, J. De Clercq, A. Coene, M. Dvornik, and B. Van Waeyenberge,
    AIP Advances, 7, 125010 (13 pages) (Dec 2017). doi: 10.1063/1.5003957

  1679. Fast micromagnetic simulations on GPU—Recent advances made with mumax3,
    J. Leliaert, M. Dvornik, J. Mulkers, J. De Clercq, M.V. Milošević, and B. Van Waeyenberge,
    Journal of Physics D: Applied Physics, 51, 123002 (31 pages) (Feb 2018). doi: 10.1088/1361-6463/aaab1c

  1680. Temperature dependence of domain-wall depinning fields in constricted Permalloy nanowires,
    Peter Lendecke, René Eiselt, Guido Meier, and Ulrich Merkt,
    Journal of Applied Physics, 103, 073909 (4 pages) (Apr 2008). doi: 10.1063/1.2903932

  1681. Magnetization dynamics in artificial spin ice,
    S. Lendinez and M.B. Jungfleisch,
    Journal of Physics: Condensed Matter, 32, 013001 (19 pages) (Jan 2020). doi: 10.1088/1361-648X/ab3e78

  1682. Current induced magnetic switching in Ni80Fe20, Ni, Fe, and Co wires,
    S. Lepadatu, Y.B. Xu, and E. Ahmad,
    Journal of Applied Physics, 97, 10C711 (3 pages) (May 2005). doi: 10.1063/1.1853237

  1683. Current-induced magnetization switching in asymmetric necked wires,
    S. Lepadatu, J. Wu, and Y.B. Xu,
    Applied Physics Letters, 91, 062512 (3 pages) (Aug 2007). doi: 10.1063/1.2768301

  1684. Experimental determination of spin-transfer torque nonadiabaticity parameter and spin polarization in permalloy,
    S. Lepadatu, M.C. Hickey, A. Potenza, H. Marchetto, T.R. Charlton, S. Langridge, S.S. Dhesi, and C.H. Marrows,
    Physical Review B, 79, 094402 (6 pages) (Mar 2009). doi: 10.1103/PhysRevB.79.094402

  1685. Dependence of domain-wall depinning threshold current on pinning profile,
    S. Lepadatu, A. Vanhaverbeke, D. Atkinson, R. Allenspach, and C.H. Marrows,
    Physical Review Letters, 102, 127203 (4 pages) (Mar 2009). doi: 10.1103/PhysRevLett.102.127203

  1686. Domain-wall pinning, nonadiabatic spin-transfer torque, and spin-current polarization in permalloy wires doped with vanadium,
    S. Lepadatu, J.S. Claydon, C.J. Kinane, T.R. Charlton, S. Langridge, A. Potenza, S.S. Dhesi, P.S. Keatley, R.J. Hicken, B.J. Hickey, and C.H. Marrows,
    Physical Review B, 81, 20413 (4 pages) (Jan 2010). doi: 10.1103/PhysRevB.81.020413

  1687. Reduction of threshold current for domain wall depinning using Gd doping of Permalloy,
    Serban Lepadatu, Jill Claydon, David Ciudad, Adam Naylor, Christy Kinane, Sean Langridge, Sarnjeet Dhesi, and Christopher Marrows,
    Applied Physics Express, 3, 083002 (3 pages) (Jul 2010). doi: 10.1143/APEX.3.083002

  1688. The increase of the spin-transfer torque threshold current density in coupled vortex domain walls,
    S. Lepadatu, A.P. Mihai, J.S. Claydon, F. Maccherozzi, S.S. Dhesi, C.J. Kinane, S. Langridge, and C.H. Marrows,
    Journal of Physics: Condensed Matter, 24, 024210 (5 pages) (Jan 2012). doi: 10.1088/0953-8984/24/2/024210

  1689. Boris computational spintronics—High performance multi-mesh magnetic and spin transport modeling software,
    Serban Lepadatu,
    Journal of Applied Physics, 128, 243902 (18 pages) (Dec 2020). doi: 10.1063/5.0024382

  1690. Increased magnetic damping of a single domain wall and adjacent magnetic domains detected by spin torque diode in a nanostripe,
    Steven Lequeux, Joao Sampaio, Paolo Bortolotti, Thibaut Devolder, Rie Matsumoto, Kay Yakushiji, Hitoshi Kubota, Akio Fukushima, Shinji Yuasa, Kazumasa Nishimura, Yoshinori Nagamine, Koji Tsunekawa, Vincent Cros, and Julie Grollier,
    Applied Physics Letters, 107, 182404 (5 pages) (Nov 2015). doi: 10.1063/1.4935203

  1691. The effect of arrive angle of external magnetic field on the shape of hysteresis curve permalloy Ni80Fe20 by simulation,
    Merinda Lestari, Widia Nursiyanto, and Agung Tjahjo Nugroho,
    Computational And Experimental Research In Materials And Renewable Energy, 4, 102-110 (Nov 2021). doi: 10.19184/cerimre.v4i2.28377

  1692. Quasi-static properties of one-dimensional Permalloy nanostructures: a comparative analysis as a function of geometrical parameters,
    S. Levis, A. Villegas, J. Escrig, N. Bajales Luna, and D.M. Arciniegas Jaimes,
    Anales AFA, 33, 31-35 (Jul 2022). doi: 10.31527/analesafa.2022.33.2.31

  1693. Magnetophotonic crystals: Nonreciprocity, birefringence and confinement,
    M. Levy, A.A. Jalali, and X. Huang,
    Journal of Materials Science: Materials in Electronics, 20, 43-47 (Jan 2009). doi: 10.1007/s10854-007-9433-z

  1694. Magnetic domain wall pinning by a curved conduit,
    E.R. Lewis, D. Petit, L. Thevenard, A.V. Jausovec, L. O’Brien, D.E. Read, and R.P. Cowburn,
    Applied Physics Letters, 95, 152505 (3 pages) (Oct 2009). doi: 10.1063/1.3246154

  1695. Fast domain wall motion in magnetic comb structures,
    E.R. Lewis, D. Petit, L. O’Brien, A. Fernandez-Pacheco, J. Sampaio, A.V. Jausovec, H.T. Zeng, D.E. Read, and R.P. Cowburn,
    Nature Materials, 9, 980-983 (Oct 2010). doi: 10.1038/nmat2857

  1696. Kinetic depinning of a magnetic domain wall above the Walker field,
    E.R. Lewis, D. Petit, L. O’Brien, A.-V. Jausovec, H.T. Zeng, D.E. Read, and R.P. Cowburn,
    Applied Physics Letters, 98, 042502 (3 pages) (Jan 2011). doi: 10.1063/1.3543844

  1697. Magnetic moment orientations in α-Fe nanowire arrays embedded in anodic aluminum oxide templates,
    Fashen Li, Liyuan Ren, Ziping Niu, Haixin Wang, and Tao Wang,
    Journal of Physics: Condensed Matter, 14, 6875-6882 (2002). doi: 10.1088/0953-8984/14/27/311

  1698. Ultralow field magnetization reversal of two-body magnetic nanoparticles,
    Fei Li, Jincheng Lu, Xiaofeng Lu, Rujun Tang, and Z.Z. Sun,
    AIP Advances, 6, 085006 (7 pages) (Aug 2016). doi: 10.1063/1.4961024

  1699. Micromagnetic simulation of two-body magnetic nanoparticles,
    Fei Li, Jincheng Lu, Yu Yang, Xiaofeng Lu, Rujun Tang, and Z.Z. Sun,
    Journal of Physics: Conference Series, 827, 012004 (6 pages) (May 2017). doi: 10.1088/1742-6596/827/1/012004

  1700. Detection of single micron-sized magnetic bead and magnetic nanoparticles using spin valve sensors for biological applications,
    Guanxiong Li, Vikram Joshi, Robert L. White, Shan X. Wang, Jennifer T. Kemp, Chris Webb, Ronald W. Davis, and Shouheng Sun,
    Journal of Applied Physics, 93, 7557-7559 (May 2003). doi: 10.1063/1.1540176

  1701. Analytical and micromagnetic modeling for detection of a single magnetic microbead or nanobead by spin valve sensors,
    Guanxiong Li and Shan X. Wang,
    IEEE Transactions on Magnetics, 39, 3313-3315 (Sep 2003). doi: 10.1109/TMAG.2003.816760

  1702. Magnetization evolution in a Permalloy dot driven by spin-polarized currents in multi-nanocontact geometry,
    Huanan Li, Yan Liu, and An Du,
    Journal of Magnetism and Magnetic Materials, 341, 45-48 (Sep 2013). doi: 10.1016/j.jmmm.2013.04.013

  1703. Reduced switching current density with an off-centered nanocontact in a confined structure,
    Huanan Li, Yan Liu, Min Jia, and An Du,
    Journal of Magnetism and Magnetic Materials, 386, 8-11 (Jul 2015). doi: 10.1016/j.jmmm.2015.03.055

  1704. Magnetization dynamics induced by Rashba effect in a Permalloy nanodisk,
    Huanan Li, Zhong Hua, and Dongfei Li,
    Physica B: Condensed Matter, 507, 114-118 (Feb 2017). doi: 10.1016/j.physb.2016.11.037

  1705. The magnetic vortex gyration mediated by spin-polarized current in a confined off-centered nanocontact structure,
    Huanan Li, Dongfei Li, Yaxin Wang, and Zhong Hua,
    Solid State Communications, 251, 60-65 (Feb 2017). doi: 10.1016/j.ssc.2016.12.015

  1706. The influence of off-centered nanocontact on the dynamics of magnetic vortex in a confined structure,
    Huanan Li, Hang Sun, Li Wang, Zibo Xu, Ying Dong, and Yan Liu,
    Journal of Magnetism and Magnetic Materials, 449, 145-151 (Mar 2018). doi: 10.1016/j.jmmm.2017.09.083

  1707. Magnetic properties and magnetization reversal in Co nanowires with different morphology,
    Hongjian Li, Qiong Wu, Yi Peng, Huanhuan Xu, Jiuxing Zhang, and Ming Yue,
    Journal of Magnetism and Magnetic Materials, 469, 203-210 (Jan 2019). doi: 10.1016/j.jmmm.2018.08.063

  1708. Magnetization reversal in cobalt nanowires with combined magneto-crystalline and shape anisotropies,
    Hongjian Li, Qiong Wu, Ming Yue, Yi Peng, Yuqing Li, Jingming Liang, Dajun Wang, and Jiuxing Zhang,
    Journal of Magnetism and Magnetic Materials, 481, 104-110 (Jul 2019). doi: 10.1016/j.jmmm.2019.02.094

  1709. Influence of Dzyaloshinskii-Moriya interaction on the magnetic vortex gyration driven by a spin-polarized current,
    Huanan Li, Dan Wang, Yifan Zhao, Yue Hu, Ziwei Fan, and Yan Liu,
    Journal of Magnetism and Magnetic Materials, 515, 167291 (6 pages) (Dec 2020). doi: 10.1016/j.jmmm.2020.167291

  1710. A voltage-modulated nanostrip spin-wave filter and spin logic device thereof,
    Huihui Li, Bowen Dong, Qi Hu, Yunsen Zhang, Guilei Wang, Hao Meng, and Chao Zhao,
    Nanomaterials, 12, 3838 (8 pages) (Oct 2022). doi: 10.3390/nano12213838

  1711. Effects of dipolar interactions on magnetic properties of Co nanowire arrays,
    Hong-Jian Li, Ming Yue, Qiong Wu, Yi Peng, Yu-Qing Li, Wei-Qiang Liu, Dong-Tao Zhang, and Jiu-Xing Zhang,
    Chinese Physics B, 26, 117503 (5 pages) (Sep 2017). doi: 10.1088/1674-1056/26/11/117503

  1712. Faster vortex core switching with lower current density using three-nanocontact spin-polarized currents in a confined structure,
    Hua-Nan Li, Zhong Hua, and Dong-Fei Li,
    Chinese Physics B, 26, 017502 (5 pages) (Jan 2017). doi: 10.1088/1674-1056/26/1/017502

  1713. Magnetic vortex gyration mediated by point-contact position,
    Hua-Nan Li, Zi-Wei Fan, Jia-Xin Li, Yue Hu, and Hui-Lian Liu,
    Chinese Physics B, 28, 107503 (4 pages) (Sep 2019). doi: 10.1088/1674-1056/ab4277

  1714. Influence of Dzyaloshinskii-Moriya interaction on the magnetic vortex reversal in an off-centered nanocontact geometry,
    Hua-Nan Li, Tong-Xin Xue, Lei Chen, Ying-Rui Sui, and Mao-Bin Wei,
    Chinese Physics B, 31, 097501 (5 pages) (Sep 2022). doi: 10.1088/1674-1056/ac4cbd

  1715. Magnetic domain structures of focused ion beam-patterned cobalt films using scanning ion microscopy with polarization analysis,
    Jian Li and Carl Rau,
    Journal of Applied Physics, 95, 6527-6529 (Jun 2004). doi: 10.1063/1.1689433

  1716. Structure and magnetic properties of cobalt nanoplatelets,
    Jiangong Li, Yong Qin, Xinli Kou, Haiying He, and Dakang Song,
    Materials Letters, 58, 2506-2509 (Aug 2004). doi: 10.1016/j.matlet.2004.03.026

  1717. The microstructure and magnetic properties of Ni nanoplatelets,
    Jiangong Li, Yong Qin, Xinli Kou, and Juanjuan Huang,
    Nanotechnology, 15, 982-986 (Aug 2004). doi: 10.1088/0957-4484/15/8/020

  1718. Spin-resolved magnetic studies of focused ion beam etched nano-sized magnetic structures,
    J. Li and C. Rau,
    Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 230, 518-523 (Apr 2005). doi: 10.1016/j.nimb.2004.12.094

  1719. Microstructure and magnetic properties of FexNi1-x alloy nanoplatelets,
    J. Li, Y. Qin, X. Kou, and J. Huang,
    Journal of Nanoscience and Nanotechnology, 5, 1699-1706 (Oct 2005). doi: 10.1166/jnn.2005.403

  1720. Magnetic and microwave properties of cobalt nanoplatelets,
    J. Li, J. Huang, Y. Qin, and F. Ma,
    Materials Science and Engineering: B, 138, 199-204 (Apr 2007). doi: 10.1016/j.mseb.2006.12.001

  1721. Comparing artificial frustrated magnets by tuning the symmetry of nanoscale permalloy arrays,
    J. Li, X. Ke, S. Zhang, D. Garand, C. Nisoli, P. Lammert, V.H. Crespi, and P. Schiffer,
    Physical Review B, 81, 92406 (4 pages) (Mar 2010). doi: 10.1103/PhysRevB.81.092406

  1722. Comparing frustrated and unfrustrated clusters of single-domain ferromagnetic islands,
    J. Li, S. Zhang, J. Bartell, C. Nisoli, X. Ke, P.E. Lammert, V.H. Crespi, and P. Schiffer,
    Physical Review B, 82, 134407 (5 pages) (Oct 2010). doi: 10.1103/PhysRevB.82.134407

  1723. Magnetization states and switching in narrow-gapped ferromagnetic nanorings,
    Jie Li, Sheng Zhang, Chris Grigas, Rajiv Misra, Jason Bartell, Vincent H. Crespi, and Peter Schiffer,
    AIP Advances, 2, 012136 (6 pages) (Feb 2012). doi: 10.1063/1.3685590

  1724. Magnetic vortex core dynamics in correlated double plates of permalloy,
    Jia Li, Qing Hu, R.L. Zhang, R.W. Peng, and Mu Wang,
    Journal of Nanoscience and Nanotechnology, 13, 1043-1046 (Feb 2013). doi: 10.1166/jnn.2013.6126

  1725. Stabilizing a magnetic vortex/antivortex array in single crystalline Fe/Ag (001) microstructures,
    J. Li, A. Tan, K.W. Moon, A. Doran, M.A. Marcus, A.T. Young, E. Arenholz, S. Ma, R.F. Yang, C. Hwang, and Z.Q. Qiu,
    Applied Physics Letters, 104, 262409 (5 pages) (Jun 2014). doi: 10.1063/1.4887345

  1726. Tailoring the topology of an artificial magnetic skyrmion,
    J. Li, A. Tan, K.W. Moon, A. Doran, M.A. Marcus, A.T. Young, E. Arenholz, S. Ma, R.F. Yang, C. Hwang, and Z.Q. Qiu,
    Nature communications, 5, 4704 (6 pages) (Aug 2014). doi: 10.1038/ncomms5704

  1727. Independent control of the vortex chirality and polarity in a pair of magnetic nanodots,
    Junqin Li, Yong Wang, Jiefeng Cao, Xiangyu Meng, Fangyuan Zhu, Yanqing Wu, and Renzhong Tai,
    Journal of Magnetism and Magnetic Materials, 435, 167-172 (Aug 2017). doi: 10.1016/j.jmmm.2017.03.080

  1728. The control of magnetic vortex state in rectangular nanomagnet,
    Junqin Li, Yong Wang, Jiefeng Cao, Xiangyu Meng, Fangyuan Zhu, and Renzhong Tai,
    Journal of Magnetism and Magnetic Materials, 451, 379-384 (Apr 2018). doi: 10.1016/j.jmmm.2017.11.081

  1729. Independent control of the chirality and polarity for the magnetic vortex in symmetric nanodot pairs,
    Junqin Li, Yong Wang, Zilong Zhao, Jiefeng Cao, Fangyuan Zhu, and Renzhong Tai,
    IEEE Transactions on Magnetics, 56, 4300306 (6 pages) (Sep 2020). doi: 10.1109/TMAG.2020.3004537

  1730. Fast control of the polarity of the magnetic vortex for a pair of magnetic nanodots,
    Junqin Li, Yong Wang, Jiefeng Cao, Xiangyu Meng, Fangyuan Zhu, and Renzhong Tai,
    Journal of Magnetism and Magnetic Materials, 529, 167841 (8 pages) (Jul 2021). doi: 10.1016/j.jmmm.2021.167841

  1731. Micromagnetic simulations of reversal magnetization in cerium-containing magnets,
    Lei Li, Shengzhi Dong, Hongsheng Chen, Ruijiao Jiang, Dong Li, Rui Han, Dong Zhou, Minggang Zhu, Wei Li, and Wei Sun,
    Chinese Physics B, 28, 037502 (6 pages) (Feb 2019). doi: 10.1088/1674-1056/28/3/037502

  1732. Micromagnetic simulations on demagnetization processes in anisotropic Nd2Fe14B magnets,
    Lei Li, Shengzhi Dong, Rui Han, Kuikui Song, Dong Li, Minggang Zhu, Wei Li, and Wei Sun,
    Journal of Rare Earths, 37, 628-632 (Jun 2019). doi: 10.1016/j.jre.2018.10.018

  1733. Skyrmion-based logic gates controlled by electric currents in synthetic antiferromagnet,
    Linlin Li, Jia Luo, Jing Xia, Yan Zhou, Xiaoxi Liu, and Guoping Zhao,
    Chinese Physics B, 32, 017506 (8 pages) (Jan 2023). doi: 10.1088/1674-1056/ac9b01

  1734. Ultrahigh differential mobility and velocity of Néel domain walls in spin valves with planar-transverse polarizers and perpendicularly injected small currents,
    Mei Li, Zhong An, and Jie Lu,
    Physical Review B, 100, 064406 (10 pages) (Aug 2019). doi: 10.1103/PhysRevB.100.064406

  1735. Switching behavior of lithographically fabricated nanomagnets for logic applications,
    P. Li, G. Csaba, V.K. Sankar, X. Ju, P. Lugli, X.S. Hu, M. Niemier, W. Porod, and G.H. Bernstein,
    Journal of Applied Physics, 111, 07B911 (3 pages) (Mar 2012). doi: 10.1063/1.3676220

  1736. Direct measurement of magnetic coupling between nanomagnets for nanomagnetic logic applications,
    Peng Li, Gyorgy Csaba, Vijay K. Sankar, Xueming Ju, Edit Varga, Paolo Lugli, X. Sharon Hu, Michael Niemier, Wolfgang Porod, and Gary H. Bernstein,
    IEEE Transactions on Magnetics, 48, 4402-4405 (Nov 2012). doi: 10.1109/TMAG.2012.2202219

  1737. Magnetic properties of enhanced permeability dielectrics for nanomagnetic logic circuits,
    Peng Li, Vijay K. Sankar, Gyorgy Csaba, X. Sharon Hu, Michael Niemier, Wolfgang Porod, and Gary H. Bernstein,
    IEEE Transactions on Magnetics, 48, 3292-3295 (Nov 2012). doi: 10.1109/TMAG.2012.2204236

  1738. Power reduction in nanomagnet logic using high-permeability dielectrics,
    Peng Li, Gyorgy Csaba, Michael Niemier, X. Sharon Hu, Joe Nahas, Wolfgang Porod, and Gary H. Bernstein,
    Journal of Applied Physics, 113, 17B906 (3 pages) (Apr 2013). doi: 10.1063/1.4799520

  1739. Fabrication of pseudo-spin-valve giant magnetoresistance arrays for nanomagnet logic by liftoff and the snow-jet process,
    Peng Li, Vijay Sankar, Faisal Shah, Himadri Dey, Gyorgy Csaba, Wolfgang Porod, Gary H. Bernstein, Michael Niemier, Xiaobo S. Hu, and Joseph Nahas,
    Journal of Vacuum Science and Technology B, 33, 022801 (4 pages) (Feb 2015). doi: 10.1116/1.4907408

  1740. Spatially resolved ferroelectric domain-switching-controlled magnetism in Co40Fe40B20/Pb(Mg1/3Nb2/3)0.7Ti0.3O3 multiferroic heterostructure,
    Peisen Li, Yonggang Zhao, Sen Zhang, Aitian Chen, Dalai Li, Jing Ma, Yan Liu, Daniel T. Pierce, John Unguris, Hong-Guang Piao, Huiyun Zhang, Meihong Zhu, Xiaozhong Zhang, Xiufeng Han, Mengchun Pan, and Ce-Wen Nan,
    ACS Applied Materials and Interfaces, 9, 2642-2649 (Jan 2017). doi: 10.1021/acsami.6b13620

  1741. Field dependence of antiferromagnetic domain switching in epitaxial Fe/CoO/MgO(001) systems,
    Q. Li, T.P. Ma, M. Yang, L. Sun, S.Y. Huang, R.W. Li, C. Won, Z.Q. Qiu, and Y.Z. Wu,
    Physical Review B, 96, 024420 (7 pages) (Jul 2017). doi: 10.1103/PhysRevB.96.024420

  1742. Spin hall nano-oscillators based on two-dimensional Fe3GeTe2 magnetic materials,
    Rongxin Li, Ziyang Yu, Zhenhua Zhang, Yan Shao, Xiangxiang Wang, Giovanni Finocchio, Zhihong Lu, Rui Xiong, and Zhongming Zeng,
    Nanoscale, 12, 22808-22816 (Nov 2020). doi: 10.1039/D0NR06449A

  1743. A spin-orbit torque device for sensing three-dimensional magnetic fields,
    Ruofan Li, Shuai Zhang, Shijiang Luo, Zhe Guo, Yan Xu, Jun Ouyang, Min Song, Qiming Zou, Li Xi, Xiaofei Yang, Jeongmin Hong, and Long You,
    Nature Electronics, 4, 179-184 (Feb 2021). doi: 10.1038/s41928-021-00542-8

  1744. Interlayer-exchange-dominant spin Hall nano-oscillator,
    Rongxin Li, Xiaojuan Yuan, Zhenhua Zhang, Qian Chen, Zhongming Zeng, Zhihong Lu, Ke Wang, Yong Liu, and Rui Xiong,
    Physical Review Applied, 19, 034020 (9 pages) (Mar 2023). doi: 10.1103/PhysRevApplied.19.034020

  1745. Current-induced domain wall motion in TbFeCo wires with perpendicular magnetic anisotropy,
    S. Li, H. Nakamura, T. Kanazawa, X. Liu, and A. Morisako,
    IEEE Transactions on Magnetics, 46, 1695-1698 (Jun 2010). doi: 10.1109/TMAG.2010.2042576

  1746. Magnetic skyrmion-based artificial neuron device,
    Sai Li, Wang Kang, Yangqi Huang, Xichao Zhang, Yan Zhou, and Weisheng Zhao,
    Nanotechnology, 28, 31LT01 (7 pages) (Jul 2017). doi: 10.1088/1361-6528/aa7af5

  1747. Dynamics of a magnetic skyrmionium driven by spin waves,
    Sai Li, Jing Xia, Xichao Zhang, Motohiko Ezawa, Wang Kang, Xiaoxi Liu, Yan Zhou, and Weisheng Zhao,
    Applied Physics Letters, 112, 142404 (5 pages) (Apr 2018). doi: 10.1063/1.5026632

  1748. Magnetization dynamics modulated by Dzyaloshinskii-Moriya interaction in the double-interface spin-transfer torque magnetic tunnel junction,
    Simin Li, Zhaohao Wang, Yijie Wang, Mengxing Wang, and Weisheng Zhao,
    Nanoscale Research Letters, 14, 315 (9 pages) (Sep 2019). doi: 10.1186/s11671-019-3150-4

  1749. Phase-change-assisted spin-transfer torque switching in perpendicular magnetic tunnel junctions,
    Shen Li, Chen Lv, Xiaoyang Lin, Guodong Wei, Yiang Xiong, Wei Yang, Zhaohao Wang, Youguang Zhang, and Weisheng Zhao,
    Applied Physics Letters, 119, 122401 (6 pages) (Sep 2021). doi: 10.1063/5.0054491

  1750. Rich topological spin textures in single-phase and core-shell magnetic nanodisks,
    Sen Li, Qinyun Li, Jiancheng Liu, Nian Ran, Ping Lai, Laichuan Shen, Jing Xia, Linhua Xie, Yan Zhou, and Guoping Zhao,
    Physical Review B, 107, 014414 (15 pages) (Jan 2023). doi: 10.1103/PhysRevB.107.014414

  1751. Flux closure structures in cobalt rings,
    S.P. Li, D. Peyrade, M. Natali, A. Lebib, Y. Chen, U. Ebels, L.D. Buda, and K. Ounadjela,
    Physical Review Letters, 86, 1102-1105 (2001). doi: 10.1103/PhysRevLett.86.1102

  1752. Magnetic nanostructure fabrication by soft lithography and vortex-single domain transition in Co dots,
    S.P. Li, M. Natali, A. Lebib, A. Pépin, Y. Chen, and Y.B. Xu,
    Journal of Magnetism and Magnetic Materials, 241, 447-452 (Mar 2002). doi: 10.1016/S0304-8853(01)00441-3

  1753. Intrinsic anisotropy-defined magnetization reversal in submicron ring magnets,
    S.P. Li, W.S. Lew, J.A.C. Bland, M. Natali, A. Lebib, and Y. Chen,
    Journal of Applied Physics, 92, 7397-7403 (Dec 2002). doi: 10.1063/1.1518765

  1754. Topographic anisotropy in continuous magnetic films with two-dimensional surface nanomodulation,
    S.P. Li, J.F. Godsell, and S. Roy,
    Journal of Applied Physics, 108, 093915 (5 pages) (Nov 2010). doi: 10.1063/1.3501111

  1755. Surface topography engineered anisotropy in ferromagnetic films,
    S.P. Li, J.F. Godsell, and S. Roy,
    IEEE Transactions on Magnetics, 47, 1559-1562 (Jun 2011). doi: 10.1109/TMAG.2011.2107734

  1756. Micromagnetic simulation of anisotropic grain boundary diffusion for sintered Nd-Fe-B magnets,
    W. Li, Q. Zhou, L.Z. Zhao, Q.X. Wang, X.C. Zhong, and Z.W. Liu,
    Journal of Magnetism and Magnetic Materials, 451, 704-709 (Apr 2018). doi: 10.1016/j.jmmm.2017.12.002

  1757. Effects of grain boundary configuration and characteristics on the demagnetization process and coercivity of anisotropic NdFeB magnets,
    W. Li, L.Z. Zhao, Q. Zhou, X.C. Zhong, and Z.W. Liu,
    Computational Materials Science, 148, 38-45 (Jun 2018). doi: 10.1016/j.commatsci.2018.02.034

  1758. Micromagnetic simulation on magnetic properties of Nd2Fe14B/α-Fe nanocomposites with Fe nanowires as the soft phase,
    Wei Li, Lizhong Zhao, and Zhongwu Liu,
    Frontiers of Materials Science, 12, 348-353 (Dec 2018). doi: 10.1007/s11706-018-0436-x

  1759. Micromagnetic investigation by a simplified approach on the demagnetization field of permanent magnets with nonmagnetic phase inside,
    Wei Li, Lizhong Zhao, and Zhongwu Liu,
    Frontiers of Materials Science, 13, 323-333 (Aug 2019). doi: 10.1007/s11706-019-0471-2

  1760. Motion and switching of dual-vortex cores in elliptical permalloy nanodisk stimulated by a Gaussian magnetic field pulse,
    X. Li, Y. Zhou, T. Zeng, K.-W. Lin, P.T. Lai, and Philip W.T. Pong,
    IEEE Transactions on Magnetics, 53, 4300106 (6 pages) (May 2017). doi: 10.1109/TMAG.2017.2650151

  1761. Novel cascadable magnetic majority gates for implementing comprehensive logic functions,
    Xin Li, Min Song, Nuo Xu, Shijiang Luo, Qiming Zou, Shuai Zhang, Jeongmin Hong, Xiaofei Yang, Tai Min, Xiufeng Han, Xuecheng Zou, Jian-Gang Zhu, Sayeef Salahuddin, and Long You,
    IEEE Transactions on Electron Devices, 65, 4687-4693 (Oct 2018). doi: 10.1109/TED.2018.2866621

  1762. Spin-orbit torque field-effect transistor (SOTFET): Proposal for a magnetoelectric memory,
    Xiang Li, Joseph Casamento, Phillip Dang, Zexuan Zhang, Olalekan Afuye, Antonio B. Mei, Alyssa B. Apsel, Darrell G. Schlom, Debdeep Jena, Daniel C. Ralph, and Huili Grace Xing,
    Applied Physics Letters, 116, 242405 (5 pages) (Jun 2020). doi: 10.1063/5.0002909

  1763. Energy efficient all-electric-field-controlled multiferroic magnetic domain-wall logic,
    Xin Li, Hanuman Singh, Yi Bao, Qiang Luo, Shihao Li, Jyotirmoy Chatterjee, Maite Goiriena-Goikoetxea, Zhuyun Xiao, Nobumichi Tamura, Rob N. Candler, Long You, Jeff Bokor, and Jeongmin Hong,
    Nano Letters, 23, 6845-6851 (Jul 2023). doi: 10.1021/acs.nanolett.3c00707

  1764. Electrical switching of antiferromagnets via strongly spin-orbit coupled materials,
    Xi-Lai Li, Xiaopeng Duan, Yuriy G. Semenov, and Ki Wook Kim,
    Journal of Applied Physics, 121, 023907 (7 pages) (Jan 2017). doi: 10.1063/1.4974027

  1765. External-field-free magnetic biosensor,
    Yuanpeng Li, Yi Wang, Todd Klein, and Jian-Ping Wang,
    Applied Physics Letters, 104, 122401 (5 pages) (Mar 2014). doi: 10.1063/1.4869029

  1766. Effect of magnetic soft phase on the magnetic properties of bulk anisotropic Nd2Fe14B/α-Fe nanocomposite permanent magnets,
    Yuqing Li, Ming Yue, Guoping Zhao, and Hongguo Zhang,
    Materials Research Express, 5, 016108 (10 pages) (Jan 2018). doi: 10.1088/2053-1591/aaa865

  1767. Dynamics of vortex domain walls in ferromagnetic nanowires—A possible method for chirality manipulation,
    Y. Li, Z. Lu, C. Chen, M. Cheng, H. Yin, W. Wang, C. Li, Y. Liu, R. Xiong, and J. Shi,
    Journal of Magnetism and Magnetic Materials, 456, 341-345 (Jun 2018). doi: 10.1016/j.jmmm.2018.02.041

  1768. Effect of heterogeneous microstructure on magnetization reversal mechanism of hot-deformed Nd-Fe-B magnets,
    Yuqing Li, Xiaochang Xu, Ming Yue, Dan Wu, Weiqiang Liu, and Dongtao Zhang,
    Journal of Rare Earths, 37, 1088-1095 (Oct 2019). doi: 10.1016/j.jre.2019.03.009

  1769. Simulation on the openness in recoil loop of nanocomposite magnet,
    Yuqing Li, Yuan Teng, Xiaochang Xu, Yu Zhang, and Ming Yue,
    Journal of Magnetism and Magnetic Materials, 538, 168261 (6 pages) (Nov 2021). doi: 10.1016/j.jmmm.2021.168261

  1770. Temperature response of non-hysteresis magnetic switching by electrical current,
    Yanru Li, Meiyin Yang, and Jun Luo,
    Journal of Materials Science: Materials in Electronics, 33, 6681-6688 (Mar 2022). doi: 10.1007/s10854-022-07842-5

  1771. Enhancing the spin-orbit torque efficiency by the insertion of a sub-nanometer β-W layer,
    Yaojin Li, Xi Zha, Yifan Zhao, Qi Lu, Boyan Li, Chunlei Li, Ziyao Zhou, and Ming Liu,
    ACS Nano, 16, 11852-11861 (Jul 2022). doi: 10.1021/acsnano.2c00093

  1772. Fabrication and magnetic properties of free-standing Ni nanotube arrays with controllable wall thickness,
    Y.L. Li, S.L. Tang, R. Xie, Y. Wang, M. Yang, J.L. Gao, W.B. Xia, and Y.W. Du,
    Applied Physics Letters, 100, 052402 (3 pages) (Jan 2012). doi: 10.1063/1.3681136

  1773. Large area Co nanoring arrays fabricated on silicon substrate by anodic aluminum oxide template-assisted electrodeposition,
    Y.L. Li, S.L. Tang, W.B. Xia, L.Y. Chen, Y. Wang, T. Tang, and Y.W. Du,
    Applied Physics Letters, 100, 183101 (4 pages) (Apr 2012). doi: 10.1063/1.4709482

  1774. Micromagnetism simulation on effects of soft phase size on Nd2Fe14B/α-Fe nanocomposite magnet with soft phase imbedded in hard phase,
    Yu-Qing Li, Ming Yue, Yi Peng, and Hong-Guo Zhang,
    Chinese Physics B, 27, 087502 (6 pages) (Jul 2018). doi: 10.1088/1674-1056/27/8/087502

  1775. Analysis on the inhomogeneous magnetization reversal in the sintered Sm-Co magnet,
    Y.Q. Li, Y. Teng, M.K. Wang, D.T. Zhang, Q.M. Lu, W.Q. Liu, W.X. Xia, and M. Yue,
    Journal of Magnetism and Magnetic Materials, 571, 170468 (8 pages) (Apr 2023). doi: 10.1016/j.jmmm.2023.170468

  1776. Reconfigurable magnonic crystal consisting of periodically distributed domain walls in a nanostrip,
    Zhi-xiong Li, Xi-guang Wang, Dao-wei Wang, Yao-zhuang Nie, Wei Tang, and Guang-hua Guo,
    Journal of Magnetism and Magnetic Materials, 388, 10-15 (Aug 2015). doi: 10.1016/j.jmmm.2015.04.012

  1777. Spin-wave propagation spectrum in magnetization-modulated cylindrical nanowires,
    Zhi-xiong Li, Meng-ning Wang, Yao-zhuang Nie, Dao-wei Wang, Qing-lin Xia, Wei Tang, Zhong-ming Zeng, and Guang-hua Guo,
    Journal of Magnetism and Magnetic Materials, 414, 49-54 (Sep 2016). doi: 10.1016/j.jmmm.2016.04.057

  1778. Creation of skyrmion through resonance excitation,
    Zhi-xiong Li, Yi-fu Chen, Zhen-wei Zhou, Yao-zhuang Nie, Qing-lin Xia, Dao-wei Wang, and Guang-hua Guo,
    Journal of Magnetism and Magnetic Materials, 433, 216-221 (Jul 2017). doi: 10.1016/j.jmmm.2017.03.019

  1779. Strain-controlled skyrmion creation and propagation in ferroelectric/ferromagnetic hybrid wires,
    Zhi Li, Youguang Zhang, Yangqi Huang, Chengxiang Wang, Xichao Zhang, Yan Liu, Yan Zhou, Wang Kang, Shradha Chandrashekhar Koli, and Na Lei,
    Journal of Magnetism and Magnetic Materials, 455, 19-24 (Jun 2018). doi: 10.1016/j.jmmm.2017.07.008

  1780. Field-free spin-orbit torque induced magnetization reversal in a composite free layer with interlayer exchange coupling,
    Zhou Li, Yinuo Shi, Kequn Chi, Wenbiao Zhang, Xiang Feng, Yun Xing, Hao Meng, and Bo Liu,
    Applied Physics Letters, 118, 132402 (5 pages) (Mar 2021). doi: 10.1063/5.0041310

  1781. Field-free topological behavior in the magnetic domain wall of ferrimagnetic GdFeCo,
    Zhuolin Li, Jian Su, Shi-Zeng Lin, Dan Liu, Yang Gao, Shouguo Wang, Hongxiang Wei, Tongyun Zhao, Ying Zhang, Jianwang Cai, and Baogen Shen,
    Nature Communications, 12, 5604 (7 pages) (Sep 2021). doi: 10.1038/s41467-021-25926-4

  1782. High repetition granular Co/Pt multilayers with improved perpendicular remanent magnetization for high-density magnetic recording,
    Zhi Li, Kun Zhang, Ao Du, Hongchao Zhang, Weibin Chen, Ning Xu, Runrun Hao, Shishen Yan, Weisheng Zhao, and Qunwen Leng,
    Chinese Physics B, 32, 026803 (6 pages) (Feb 2023). doi: 10.1088/1674-1056/ac9fc1

  1783. Discovery of topological magnetic textures near room temperature in quantum magnet TbMn6Sn6,
    Zhuolin Li, Qiangwei Yin, Yi Jiang, ZhaoZhao Zhu, Yang Gao, Shouguo Wang, Jun Shen, Tongyun Zhao, Jianwang Cai, Hechang Lei, Shi-Zeng Lin, Ying Zhang, and Baogen Shen,
    Advanced Materials, 35, 202211164 (9 pages) (Mar 2023). doi: 10.1002/adma.202211164

  1784. Reversal behavior of exchange-biased submicron dots,
    Zhi-Pan Li, Oleg Petracic, Johannes Eisenmenger, and Ivan K. Schuller,
    Applied Physics Letters, 86, 072501 (3 pages) (Feb 2005). doi: 10.1063/1.1863449

  1785. Asymmetric reversal in inhomogeneous magnetic heterostructures,
    Z.-P. Li, O. Petracic, R. Morales, J. Olamit, X. Batlle, K. Liu, and I.K. Schuller,
    Physical Review Letters, 96, 217205 (4 pages) (Jun 2006). doi: 10.1103/PhysRevLett.96.217205

  1786. Co-Fe nano-dumbbells: Synthesis, structure and magnetic properties.,
    Nikos Liakakos, Christophe Gatel, Thomas Blon, Thomas Altantzis, Sergio Lentijo-Mozo, Cécile Garcia-Marcelot, Lise-Marie Lacroix, Marc Respaud, Sara Bals, Gustaaf Van Tendeloo, and Katerina Soulantica,
    Nano Letters, 14, 2747-2754 (Apr 2014). doi: 10.1021/nl500734k

  1787. Electrically switchable Rashba-type Dzyaloshinskii-Moriya interaction and skyrmion in two-dimensional magnetoelectric multiferroics,
    Jinghua Liang, Qirui Cui, and Hongxin Yang,
    Physical Review B, 102, 220409 (6 pages) (Dec 2020). doi: 10.1103/PhysRevB.102.220409

  1788. A spiking neuron constructed by the skyrmion-based spin torque nano-oscillator,
    Xue Liang, Xichao Zhang, Jing Xia, Motohiko Ezawa, Yuelei Zhao, Guoping Zhao, and Yan Zhou,
    Applied Physics Letters, 116, 122402 (5 pages) (Mar 2020). doi: 10.1063/5.0001557

  1789. Antiferromagnetic skyrmion-based logic gates controlled by electric currents and fields,
    Xue Liang, Jing Xia, Xichao Zhang, Motohiko Ezawa, Oleg A. Tretiakov, Xiaoxi Liu, Lei Qiu, Guoping Zhao, and Yan Zhou,
    Applied Physics Letters, 119, 062403 (7 pages) (Aug 2021). doi: 10.1063/5.0056259

  1790. Elongated skyrmion as spin torque nano-oscillator and magnonic waveguide,
    Xue Liang, Laichuan Shen, Xiangjun Xing, and Yan Zhou,
    Communications Physics, 5, 310 (9 pages) (Dec 2022). doi: 10.1038/s42005-022-01093-w

  1791. Size-dependent electromagnetic properties and the related simulations of Fe3O4 nanoparticles made by microwave-assisted thermal decomposition,
    Yi-Jun Liang, Fengguo Fan, Ming Ma, Jianfei Sun, Jun Chen, Yu Zhang, and Ning Gu,
    Colloids and Surfaces A: Physicochemical and Engineering Aspects, 530, 191-199 (Oct 2017). doi: 10.1016/j.colsurfa.2017.06.059

  1792. Recent advances of high performance magnetic iron oxide nanoparticles: Controlled synthesis, properties tuning and cancer theranostics,
    Yi-Jun Liang, Jun Xie, Jing Yu, Zhaoguang Zheng, Fang Liu, and Anping Yang,
    Nano Select, 2, 216-250 (Feb 2021). doi: 10.1002/nano.202000169

  1793. Simulation of the magnetization dynamics of a single-domain BiFeO3 nanoisland,
    Yu-Ching Liao, Dmitri E. Nikonov, Sourav Dutta, Sou-Chi Chang, Sasikanth Manipatruni, Ian A. Young, and Azad Naeemi,
    IEEE Transactions on Magnetics, 56, 1300309 (9 pages) (Oct 2020). doi: 10.1109/TMAG.2020.3011932

  1794. Evaluating the performances of the ultralow power magnetoelectric random access memory with a physics-based compact model of the antiferromagnet/ferromagnet bilayer,
    Yu-Ching Liao, Chia-Sheng Hsu, Dmitri Nikonov, Sou-Chi Chang, Hai Li, Ian A. Young, and Azad Naeemi,
    IEEE Transactions on Electron Devices, 69, 2331-2337 (May 2022). doi: 10.1109/TED.2022.3159767

  1795. Hysteresis magnetoresistance and micromagnetic modeling of Ni microbelts,
    Z.-M. Liao, Y. Lu, H.-Z. Zhang, and D.-P. Yu,
    Journal of Magnetism and Magnetic Materials, 322, 2231-2234 (Aug 2010). doi: 10.1016/j.jmmm.2010.02.016

  1796. The effect of temperature and external field on transitions in elements of kagome spin ice,
    Sergei Y. Liashko, Hannes Jónsson, and Valery M. Uzdin,
    New Journal of Physics, 19, 113008 (8 pages) (Nov 2017). doi: 10.1088/1367-2630/aa8b96

  1797. Control of magnetic vortex chirality in square ring micromagnets,
    A. Libál, M. Grimsditch, V. Metlushko, P. Vavassori, and B. Jankó,
    Journal of Applied Physics, 98, 083904 (6 pages) (Oct 2005). doi: 10.1063/1.2113407

  1798. Magnetization reversal of a structurally disordered manganite thin film with perpendicular anisotropy,
    M. Liebmann, A. Schwarz, U. Kaiser, R. Wiesendanger, D.-W. Kim, and T.-W. Noh,
    Physical Review B, 71, 104431 (9 pages) (Mar 2005). doi: 10.1103/PhysRevB.71.104431

  1799. Nano/micro-scale magnetophoretic devices for biomedical applications,
    Byeonghwa Lim, Paolo Vavassori, R. Sooryakumar, and CheolGi Kim,
    Journal of Physics D: Applied Physics, 50, 033002 (25 pages) (Dec 2016). doi: 10.1088/1361-6463/50/3/033002

  1800. Simulating resonant magnetization reversals in nanomagnets,
    Jinho Lim, Zhaohui Zhang, Anupam Garg, and John Ketterson,
    IEEE Transactions on Magnetics, 57, 1300304 (4 pages) (Mar 2021). doi: 10.1109/TMAG.2020.3039468

  1801. Pi pulses in a ferromagnet: Simulations for yttrium iron garnet,
    Jinho Lim, Zhaohui Zhang, Anupam Garg, and John B. Ketterson,
    Journal of Magnetism and Magnetic Materials, 527, 167787 (13 pages) (Jun 2021). doi: 10.1016/j.jmmm.2021.167787

  1802. Ferromagnetic resonance modes in the exchange-dominated limit in cylinders of finite length,
    Jinho Lim, Anupam Garg, and J.B. Ketterson,
    Physical Review Applied, 16, 064007 (25 pages) (Dec 2021). doi: 10.1103/PhysRevApplied.16.064007

  1803. Influence of periodic patterning on the magnetization response of micromagnetic structures,
    S.-H. Lim, T. Mitch Wallis, A. Imtiaz, D. Gu, P. Krivosik, and P. Kabos,
    IEEE Magnetics Letters, 2, 3500104 (4 pages) (Mar 2011). doi: 10.1109/LMAG.2011.2119394

  1804. Comparison of electrical techniques for magnetization dynamics measurements in micro/nanoscale structures,
    S.-H. Lim, T.M. Wallis, A. Imtiaz, D. Gu, P. Krivosik, and P. Kabos,
    Journal of Applied Physics, 109, 07D317 (3 pages) (Mar 2011). doi: 10.1063/1.3544480

  1805. Measurements of out-of-plane dynamics induced in magnetic nanopillars by spin transfer,
    W.L. Lim, A. Higgins, and S. Urazhdin,
    Physical Review B, 80, 104408 (7 pages) (Sep 2009). doi: 10.1103/PhysRevB.80.104408

  1806. Spin wave localization in a triangular nanomagnet,
    C.S. Lin, H.S. Lim, C.C. Wang, A.O. Adeyeye, Z.K. Wang, S.C. Ng, and M.H. Kuok,
    Journal of Applied Physics, 108, 114305 (6 pages) (Dec 2010). doi: 10.1063/1.3506531

  1807. Magnetic field dependence of the lowest-frequency edge-localized spin wave mode in a magnetic nanotriangle,
    C.S. Lin, H.S. Lim, Z.K. Wang, S.C. Ng, M.H. Kuok, and A.O. Adeyeye,
    Journal of Nanoscience and Nanotechnology, 11, 2615-2618 (Mar 2011). doi: 10.1166/jnn.2011.2708

  1808. Manipulation of skyrmion motion dynamics for logical device application mediated by inhomogeneous magnetic anisotropy,
    Jia-Qiang Lin, Ji-Pei Chen, Zhen-Yu Tan, Yuan Chen, Zhi-Feng Chen, Wen-An Li, Xing-Sen Gao, and Jun-Ming Liu,
    Nanomaterials, 12, 278 (14 pages) (Jan 2022). doi: 10.3390/nano12020278

  1809. Observation of multiple transitions on permalloy ring by magnetic force microscopy,
    L.K. Lin, C.Y. Kuo, J.Y. Ou, C.C. Chang, C.R. Chang, L. Horng, and J.C. Wu,
    physica status solidi (c), 4, 4360-4363 (Dec 2007). doi: 10.1002/pssc.200777205

  1810. Nb lateral Josephson junctions induced by a NiFe cross strip,
    L.K. Lin, S.Y. Huang, J.H. Huang, and S.F. Lee,
    Applied Physics Letters, 101, 242601 (4 pages) (Dec 2012). doi: 10.1063/1.4770302

  1811. In-plane uniaxial anisotropy induced by two-phase stripelike magnetic hybrid structure,
    M. Lin, X. Fan, Z. Zhang, D. Guo, and D. Xue,
    Journal of Applied Physics, 106, 123912 (3 pages) (Dec 2009). doi: 10.1063/1.3272718

  1812. Large-scale production of ferromagnetic nanorings by a modified hole-mask colloidal lithography: Controlled creation of flux-closure vortex state,
    Wen-Yi Lin, Chi-Chih Ho, and Wen-Kuang Hsu,
    AIP Advances, 6, 025102 (6 pages) (Feb 2016). doi: 10.1063/1.4941574

  1813. Current-driven magnetization switching and domain wall motion in nanostructures-Survey of recent experiments,
    J. Lindner,
    Superlattices and Microstructures, 47, 497-521 (Apr 2010). doi: 10.1016/J.SPMI.2010.01.005

  1814. Magnetic domain patterns of rectangular and elliptic arrays of small permalloy elements,
    S.H. Liou, R.F. Sabiryanov, S.S. Jaswal, J.C. Wu, and Y.D. Yao,
    Journal of Magnetism and Magnetic Materials, 226-230, 1270-1272 (2001). doi: 10.1016/S0304-8853(01)00073-7

  1815. Magnetic switching and reversal process in a tip ring structure,
    Yung Liou, Dong-Cheng Chen, Chwen Yu, J.S. Chen, Shang-Fan Lee, Y.D. Yao, C.C. Tzeng, T.Y. Chen, K.W. Cheng, and Ron Ma,
    Journal of Applied Physics, 95, 6723-6725 (Jun 2004). doi: 10.1063/1.1688672

  1816. Long-distance propagation of short-wavelength spin waves,
    Chuanpu Liu, Jilei Chen, Tao Liu, Florian Heimbach, Haiming Yu, Yang Xiao, Junfeng Hu, Mengchao Liu, Houchen Chang, Tobias Stueckler, Sa Tu, Youguang Zhang, Yan Zhang, Peng Gao, Zhimin Liao, Dapeng Yu, Ke Xia, Na Lei, Weisheng Zhao, and Mingzhong Wu,
    Nature Communications, 9, 738 (8 pages) (Feb 2018). doi: 10.1038/s41467-018-03199-8

  1817. Current-controlled propagation of spin waves in antiparallel, coupled domains,
    Chuanpu Liu, Shizhe Wu, Jianyu Zhang, Jilei Chen, Jinjun Ding, Ji Ma, Yuelin Zhang, Yuanwei Sun, Sa Tu, Hanchen Wang, Pengfei Liu, Chexin Li, Yong Jiang, Peng Gao, Dapeng Yu, Jiang Xiao, Rembert Duine, Mingzhong Wu, Ce-Wen Nan, Jinxing Zhang, and Haiming Yu,
    Nature Nanotechnology, 14, 691 (8 pages) (Apr 2019). doi: 10.1038/s41565-019-0429-7

  1818. Electric field control of magnon spin currents in an antiferromagnetic insulator,
    Changjiang Liu, Yongming Luo, Deshun Hong, Steven S.-L. Zhang, Hilal Saglam, Yi Li, Yulin Lin, Brandon Fisher, John E. Pearson, J. Samuel Jiang, Hua Zhou, Jianguo Wen, Axel Hoffmann, and Anand Bhattacharya,
    Science Advances, 7, eabg1669 (8 pages) (Sep 2021). doi: 10.1126/sciadv.abg1669

  1819. Micromagnetic simulation of the ground states of Ce-Fe-B amorphous nanodisks,
    D. Liu, G. Li, X. Zhao, J.F. Xiong, R. Li, T.Y. Zhao, F.X. Hu, J.R. Sun, and B.G. Shen,
    AIP Advances, 8, 056011 (6 pages) (May 2018). doi: 10.1063/1.5006447

  1820. Microstructures and magnetic properties of Co-substituted Ce-Fe-B amorphous alloys,
    Dan Liu, Tongyun Zhao, Baogen Shen, Baohe Li, Ming Zhang, Shulan Zuo, Jun Liu, Sida Jiang, Fengxia Hu, and Jirong Sun,
    Journal of Alloys and Compounds, 820, 153098 (6 pages) (Apr 2020). doi: 10.1016/j.jallcom.2019.153098

  1821. Exploration of nontrivial topological domain structures in the equilibrium state of magnetic nanodisks,
    Dan Liu, Tongyun Zhao, Ming Zhang, Lichen Wang, Jianfeng Xi, Baogen Shen, Baohe Li, Fengxia Hu, and Jirong Sun,
    Journal of Materials Science, 56, 4677-4685 (Mar 2021). doi: 10.1007/s10853-020-05569-4

  1822. Formation mechanism and energy interaction of spontaneous skyrmion in nanodisks,
    Dan Liu, Tongyun Zhao, Baogen Shen, Fei Peng, Ming Zhang, Fengxia Hu, and Jirong Sun,
    Journal of Magnetism and Magnetic Materials, 527, 167773 (6 pages) (Jun 2021). doi: 10.1016/j.jmmm.2021.167773

  1823. TEMT: A transient electronic-magnetic-thermal coupled simulation framework for STT-MTJs,
    Dawei Liu and Quan Chen,
    IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 42, 1623-1633 (May 2023). doi: 10.1109/TCAD.2022.3204233

  1824. Control of interlayer exchange coupling and its impact on spin-torque switching of hybrid free layers with perpendicular magnetic anisotropy,
    Enlong Liu, Adrien Vaysset, Johan Swerts, Thibaut Devolder, Sebastien Couet, Sofie Mertens, Tsann Lin, Sven Van Elshocht, Jo De Boeck, and Gouri Sankar Kar,
    IEEE Transactions on Magnetics, 53, 3401305 (5 pages) (Nov 2017). doi: 10.1109/TMAG.2017.2701553

  1825. Top-pinned STT-MRAM devices with high thermal stability hybrid free layers for high-density memory applications,
    Enlong Liu, Johan Swerts, Yueh Chang Wu, Adrien Vaysset, Sebastien Couet, Sofie Mertens, Siddharth Rao, Woojin Kim, Sven Van Elshocht, Jo De Boeck, and Gouri Sankar Kar,
    IEEE Transactions on Magnetics, 54, 3401805 (5 pages) (Nov 2018). doi: 10.1109/TMAG.2018.2831904

  1826. Synthetic-ferromagnet pinning layers enabling top-pinned magnetic tunnel junctions for high-density embedded magnetic random-access memory,
    Enlong Liu, Y.-C. Wu, S. Couet, S. Mertens, S. Rao, W. Kim, K. Garello, D. Crotti, S. Van Elshocht, J. De Boeck, G.S. Kar, and J. Swerts,
    Physical Review Applied, 10, 054054 (11 pages) (Nov 2018). doi: 10.1103/PhysRevApplied.10.054054

  1827. Magnetization reversal in ferromagnetic films patterned with antiferromagnetic gratings of various sizes,
    F. Liu and C.A. Ross,
    Physical Review Applied, 4, 054005 (7 pages) (Nov 2015). doi: 10.1103/PhysRevApplied.4.054005

  1828. Micromagnetic simulation on the dynamic permeability spectrum of micrometer sized magnetic elements,
    Huanhuan Liu, Qi Wang, Huaiwu Zhang, and Zhiyong Zhong,
    Journal of Magnetism and Magnetic Materials, 369, 40-43 (Nov 2014). doi: 10.1016/j.jmmm.2014.06.021

  1829. Directly excited backward volume spin waves in Permalloy microstrips,
    H.J. Liu, Grant A. Riley, and Kristen S. Buchanan,
    IEEE Magnetics Letters, 6, 4000304 (4 pages) (Oct 2015). doi: 10.1109/LMAG.2015.2495162

  1830. Efficient dipole coupled nanomagnetic logic in stress induced elliptical nanomagnet array,
    Jiahao Liu, Xiaokuo Yang, Mingliang Zhang, Bo Wei, Cheng Li, Danna Dong, and Chuang Li,
    IEEE Electron Device Letters, 40, 220-223 (Feb 2019). doi: 10.1109/LED.2018.2889707

  1831. Modeling of 180° magnetization switching and clock sensitivity in a tilted multiferroic nanomagnet,
    Jia-hao Liu, Xiao-kuo Yang, Huan-qing Cui, Seng Wang, Bo Wei, Cheng Li, Chuang Li, and Dan-na Dong,
    Journal of Magnetism and Magnetic Materials, 474, 161-166 (Mar 2019). doi: 10.1016/j.jmmm.2018.10.114

  1832. Voltage pulse-induced fast and repeated switching in a uniaxial nanomagnet at room temperature,
    Jia-hao Liu, Xiao-kuo Yang, Huan-qing Cui, Bo Wei, Cheng Li, Yabo Chen, Mingliang Zhang, Chuang Li, and Dan-na Dong,
    Journal of Magnetism and Magnetic Materials, 491, 165607 (5 pages) (Dec 2019). doi: 10.1016/j.jmmm.2019.165607

  1833. Voltage manipulation of desired magnetization orientation in multiferroic heterostructures,
    Jiahao Liu, Xiaokuo Yang, Dunhua Hong, Cheng Li, Nuo Xu, Binbin Yang, and Liang Fang,
    Scripta Materialia, 193, 132-136 (Mar 2021). doi: 10.1016/j.scriptamat.2020.10.054

  1834. Magnetic skyrmionic bubbles at room temperature and sign reversal of the topological Hall effect in a layered ferromagnet Cr0.87Te,
    Jun Liu, Bei Ding, Jinjing Liang, Xue Li, Yuan Yao, and Wenhong Wang,
    ACS Nano, 16, 13911-13918 (Aug 2022). doi: 10.1021/acsnano.2c02928

  1835. Reduction of the spin-torque critical current by partially canceling the free layer demagnetization field,
    L. Liu, T. Moriyama, D.C. Ralph, and R.A. Buhrman,
    Applied Physics Letters, 94, 122508 (3 pages) (Mar 2009). doi: 10.1063/1.3107262

  1836. Current-driven skyrmion motion beyond linear regime: Interplay between skyrmion transport and deformation,
    Linjie Liu, Weijin Chen, and Yue Zheng,
    Physical Review Applied, 14, 024077 (15 pages) (Aug 2020). doi: 10.1103/PhysRevApplied.14.024077

  1837. Skyrmion transport modified by surface terraces in magnetic multilayers,
    Linjie Liu, Weijin Chen, and Yue Zheng,
    Physical Review Applied, 16, 014050 (13 pages) (Jul 2021). doi: 10.1103/PhysRevApplied.16.014050

  1838. Flexoresponses of synthetic antiferromagnetic systems hosting skyrmions,
    Linjie Liu, Weijin Chen, and Yue Zheng,
    Physical Review Letters, 128, 257201 (6 pages) (Jun 2022). doi: 10.1103/PhysRevLett.128.257201

  1839. Ferromagnetic-assisted Maxwell’s displacement current based on iron/polymer composite for improving the triboelectric nanogenerator output,
    Liqiang Liu, Jun Li, Wei Ou-Yang, Zhengxin Guan, Xiaowei Hu, Mingjun Xie, and Zhiyu Tian,
    Nano Energy, 96, 107139 (11 pages) (Jun 2022). doi: 10.1016/j.nanoen.2022.107139

  1840. Micromagnetic simulation of the magnetic spectrum of ferromagnetic nanowire,
    Ronglin Liu, Jianbo Wang, Qingfang Liu, Haixin Wang, and Changjun Jiang,
    Journal of Applied Physics, 103, 013910 (4 pages) (Jan 2008). doi: 10.1063/1.2829817

  1841. Dynamical skyrmion state in a spin current nano-oscillator with perpendicular magnetic anisotropy,
    R.H. Liu, W.L. Lim, and S. Urazhdin,
    Physical Review Letters, 114, 137201 (6 pages) (Apr 2015). doi: 10.1103/PhysRevLett.114.137201

  1842. Probing spin accumulation in Ni/Au/Ni single-electron transistors with efficient spin injection and detection electrodes,
    R.S. Liu, H. Pettersson, L. Michalak, C.M. Canali, and L. Samuelson,
    Nano Letters, 7, 81-85 (Jan 2007). doi: 10.1021/nl062146n

  1843. Large magnetoresistance in Co/Ni/Co ferromagnetic single electron transistors,
    R.S. Liu, H. Pettersson, L. Michalak, C.M. Canali, D. Suyatin, and L. Samuelson,
    Applied Physics Letters, 90, 123111 (3 pages) (Mar 2007). doi: 10.1063/1.2714289

  1844. Magnetic-electrical interface for nanomagnet logic,
    Shiliang Liu, Xiaobo Sharon Hu, Joseph J. Nahas, Michael T. Niemier, Wolfgang Porod, and Gary H. Bernstein,
    IEEE Transactions on Nanotechnology, 10, 757-763 (Jul 2011). doi: 10.1109/TNANO.2010.2077645

  1845. Exploring the design of the magnetic-electrical interface for nanomagnet logic,
    Shiliang Liu, Xiaobo Sharon Hu, Michael T. Niemier, Joseph J. Nahas, György Csaba, Gary H. Bernstein, and Wolfgang Porod,
    IEEE Transactions on Nanotechnology, 12, 203-214 (Mar 2013). doi: 10.1109/TNANO.2013.2243467

  1846. Magnetic skyrmion-based spiking neural network for pattern recognition,
    Shuang Liu, Guangyao Wang, Tianshuo Bai, Kefan Mo, Jiaqi Chen, Wanru Mao, Wenjia Wang, Zihan Yuan, and Biao Pan,
    Applied Sciences, 12, 9698 (10 pages) (Jan 2022). doi: 10.3390/app12199698

  1847. Reproducible formation of single magnetic bubbles in an array of patterned dots,
    T. Liu, V. Puliafito, F. Montaigne, S. Petit, C. Deranlot, S. Andrieu, O. Ozatay, G. Finocchio, and T. Hauet,
    Journal of Physics D: Applied Physics, 49, 245002 (7 pages) (May 2016). doi: 10.1088/0022-3727/49/24/245002

  1848. Multiple modes of perpendicular magnetization switching scheme in single spin-orbit torque device,
    Tong-Xi Liu, Zhao-Hao Wang, Min Wang, Chao Wang, Bi Wu, Wei-Qiang Liu, and Wei-Sheng Zhao,
    Chinese Physics B, 31, 107501 (5 pages) (Oct 2022). doi: 10.1088/1674-1056/ac6ed9

  1849. Magnetization reversal of submicrometer Co rings with uniaxial anisotropy via scanning magnetoresistance microscopy,
    Xiaoyong Liu, D. Mazumdar, B.D. Schrag, W. Shen, and Gang Xiao,
    Physical Review B, 70, 014407 (5 pages) (Jul 2004). doi: 10.1103/PhysRevB.70.014407

  1850. Reversal mechanisms and metastable states in magnetic nanoelements,
    X. Liu, J.N. Chapman, S. McVitie, and C.D.W. Wilkinson,
    Journal of Applied Physics, 96, 5173-5179 (Nov 2004). doi: 10.1063/1.1803102

  1851. Negative coercivity and spin configuration in Ni/TbFeCo/Ni trilayers,
    X. Liu, T. Kanazawa, S. Li, and A. Morisako,
    IEEE Transactions on Magnetics, 45, 4100-4103 (Oct 2009). doi: 10.1109/TMAG.2009.2022747

  1852. Magnetotransport properties in antiferromagnetically exchange-coupled Ni/TbFeCo/Ni trilayers,
    Xiaoxi Liu, Kazunobu Hayashi, Kei Tajima, and Akimitsu Morisako,
    IEEE Transactions on Magnetics, 47, 3126-3128 (Oct 2011). doi: 10.1109/TMAG.2011.2147770

  1853. Magnetic force microscope probes with high resolution by soft magnetic vortex,
    Xiaoxi Liu, Shinsaku Isomura, and Akimitsu Morisako,
    IEEE Transactions on Magnetics, 48, 3673-3676 (Nov 2012). doi: 10.1109/TMAG.2012.2204962

  1854. Static property and current-driven precession of 2π-vortex in nano-disk with Dzyaloshinskii-Moriya interaction,
    Xianyin Liu, Qiyuan Zhu, Senfu Zhang, Qingfang Liu, and Jianbo Wang,
    AIP Advances, 5, 087137 (6 pages) (Aug 2015). doi: 10.1063/1.4928727

  1855. Introduction and control of metastable states in elliptical and rectangular magnetic nanoelements,
    X.X. Liu, J.N. Chapman, S. McVitie, and C.D.W. Wilkinson,
    Applied Physics Letters, 84, 4406-4408 (2004). doi: 10.1063/1.1757647

  1856. Hysteresis loops and reversal modes of two-phase nanoparticle,
    Y. Liu and A. Du,
    physica status solidi (b), 246, 2182-2186 (Sep 2009). doi: 10.1002/pssb.200945130

  1857. Effects of damping constant on gyrotropic motion and switching of vortex core in permalloy disk,
    Yan Liu and An Du,
    Journal of Magnetism and Magnetic Materials, 321, 3493-3497 (Oct 2009). doi: 10.1016/j.jmmm.2009.06.058

  1858. Vortex core switching by coherent excitation controlled by defect in nanodisk,
    Y. Liu and A. Du,
    Journal of Applied Physics, 107, 013906 (4 pages) (Jan 2010). doi: 10.1063/1.3268423

  1859. Influence of the asymmetry on reversal process and vortex motion in egg-shaped permalloy plates,
    Y. Liu and A. Du,
    physica status solidi (b), 247, 449-453 (Feb 2010). doi: 10.1002/pssb.200945555

  1860. Arrangement effects of triangular defects on magnetization reversal process in a permalloy dot,
    Y. Liu and A. Du,
    Journal of Magnetism and Magnetic Materials, 323, 461-464 (Mar 2011). doi: 10.1016/j.jmmm.2010.09.047

  1861. Vortex dynamics mediated by exchange coupling in permalloy double disks,
    Yan Liu, Yong Hu, and An Du,
    Journal of Magnetism and Magnetic Materials, 324, 792-796 (Mar 2012). doi: 10.1016/j.jmmm.2011.09.018

  1862. Oscillation frequency of magnetic vortex induced by spin-polarized current in a confined nanocontact structure,
    Yan Liu, Huanan Li, Yong Hu, and An Du,
    Journal of Applied Physics, 112, 093905 (6 pages) (Nov 2012). doi: 10.1063/1.4764059

  1863. Dynamics of a magnetic vortex driven by an out-of-plane spin-polarized current in a point-contact geometry with lateral confinement,
    Yan Liu, Huanan Li, Yong Hu, and An Du,
    physica status solidi (b), 250, 1578-1584 (Mar 2013). doi: 10.1002/pssb.201248372

  1864. Spin-transfer force acting on vortex induced by current gradient in a planar polarizer geometry,
    Yan Liu, Huanan Li, Yong Hu, and An Du,
    Journal of Applied Physics, 114, 113911 (5 pages) (Sep 2013). doi: 10.1063/1.4822020

  1865. Magnetic vortex gyration in a confined double-nanocontacts structure,
    Yan Liu, Huanan Li, Yong Hu, and An Du,
    Solid State Communications, 193, 61-66 (Sep 2014). doi: 10.1016/j.ssc.2014.06.001

  1866. Steady vortex gyrotropic motion driven by an out-of-plane spin-polarized current in a confined nanocontact structure,
    Yan Liu, Huanan Li, Yong Hu, and An Du,
    Solid State Communications, 201, 40-42 (Jan 2015). doi: 10.1016/j.ssc.2014.10.004

  1867. Switching of a target skyrmion by a spin-polarized current,
    Yan Liu, Haifeng Du, Min Jia, and An Du,
    Physical Review B, 91, 094425 (6 pages) (Mar 2015). doi: 10.1103/PhysRevB.91.094425

  1868. Energy analysis of a gyrating vortex with Dzyaloshinskii-Moriya interactions,
    Yan Liu, Min Jia, Huanan Li, and An Du,
    Journal of Magnetism and Magnetic Materials, 401, 806-811 (Mar 2016). doi: 10.1016/j.jmmm.2015.10.136

  1869. Arrangement effects of nanocontacts on the magnetic vortex gyration in a confined multi-nanocontacts structure,
    Yan Liu, Min Jia, Huanan Li, Yong Hu, and An Du,
    Journal of Magnetism and Magnetic Materials, 401, 124-128 (Mar 2016). doi: 10.1016/j.jmmm.2015.10.033

  1870. Topological analysis of spin-torque driven magnetic skyrmion formation,
    Yan Liu, Huan Yan, Min Jia, HaiFeng Du, and An Du,
    Applied Physics Letters, 109, 102402 (5 pages) (Sep 2016). doi: 10.1063/1.4962452

  1871. Field-driven oscillation and rotation of a multiskyrmion cluster in a nanodisk,
    Yan Liu, Huan Yan, Min Jia, Haifeng Du, An Du, and Jiadong Zang,
    Physical Review B, 95, 134442 (7 pages) (Apr 2017). doi: 10.1103/PhysRevB.95.134442

  1872. Chopping skyrmions from magnetic chiral domains with uniaxial stress in magnetic nanowire,
    Yan Liu, Na Lei, Weisheng Zhao, Wenqing Liu, Antonio Ruotolo, Hans-Benjamin Braun, and Yan Zhou,
    Applied Physics Letters, 111, 022406 (5 pages) (Jul 2017). doi: 10.1063/1.4993433

  1873. Polarity control of a skyrmion in a helimagnet nanodisk by fixing magnetization at the boundary,
    Yan Liu, Shengjie Xuan, Min Jia, and Huan Yan,
    Journal of Physics D: Applied Physics, 50, 48LT01 (6 pages) (Nov 2017). doi: 10.1088/1361-6463/aa920a

  1874. Realization of artificial skyrmion in CoCrPt/NiFe bilayers,
    Yi Liu, Yong-Ming Luo, Zheng-Hong Qian, and Jian-Guo Zhu,
    Chinese Physics B, 27, 127503 (6 pages) (Nov 2018). doi: 10.1088/1674-1056/27/12/127503

  1875. Voltage-driven high-speed skyrmion motion in a skyrmion-shift device,
    Yizheng Liu, Na Lei, Chengxiang Wang, Xichao Zhang, Wang Kang, Daoqian Zhu, Yan Zhou, Xiaoxi Liu, Youguang Zhang, and Weisheng Zhao,
    Physical Review Applied, 11, 014004 (11 pages) (Jan 2019). doi: 10.1103/PhysRevApplied.11.014004

  1876. Manipulating movement of skyrmion by strain gradient in a nanotrack,
    Yan Liu, Xiaohong Huo, Shengjie Xuan, and Huan Yan,
    Journal of Magnetism and Magnetic Materials, 492, 165659 (7 pages) (Dec 2019). doi: 10.1016/j.jmmm.2019.165659

  1877. Influence of material parameters on the stability of artificial skyrmion in Hard/Soft magnetic bilayers,
    Yi Liu, Zheng-Hong Qian, and Jian-Guo Zhu,
    physica status solidi (b), 2021, 2100320 (11 pages) (Aug 2021). doi: 10.1002/pssb.202100320

  1878. Switching magnon chirality in artificial ferrimagnet,
    Yahui Liu, Zhengmeng Xu, Lin Liu, Kai Zhang, Yang Meng, Yuanwei Sun, Peng Gao, Hong-Wu Zhao, Qian Niu, and J. Li,
    Nature Communications, 13, 1264 (7 pages) (Mar 2022). doi: 10.1038/s41467-022-28965-7

  1879. Dynamics of hybrid magnetic skyrmion driven by spin-orbit torque in ferrimagnets,
    Y. Liu, T.T. Liu, Z.P. Hou, D.Y. Chen, Z. Fan, M. Zeng, X.B. Lu, X.S. Gao, M.H. Qin, and J.-M. Liu,
    Applied Physics Letters, 122, 172405 (6 pages) (Apr 2023). doi: 10.1063/5.0146374

  1880. Field-free type-x spin-orbit-torque switching by easy-axis engineering,
    Yan-Ting Liu, Yu-Hao Huang, Chao-Chung Huang, Yung-Cheng Li, Chih-Lin Cheng, and Chi-Feng Pai,
    Physical Review Applied, 18, 034019 (9 pages) (Sep 2022). doi: 10.1103/PhysRevApplied.18.034019

  1881. Exploiting finite size effects in a novel core/shell microstructure,
    Zhu Liu, Guoqiang Xia, Frank Zhu, Su Kim, Nina Markovic, Chia-Ling Chien, and Peter C. Searson,
    Journal of Applied Physics, 103, 064313 (6 pages) (Mar 2008). doi: 10.1063/1.2844286

  1882. Three-dimensional structure of hybrid magnetic skyrmions determined by neutron scattering,
    W.L.N.C. Liyanage, Nan Tang, Lizabeth Quigley, Julie A. Borchers, Alexander J. Grutter, Brian B. Maranville, Sunil K. Sinha, Nicolas Reyren, Sergio A. Montoya, Eric E. Fullerton, Lisa DeBeer-Schmitt, and Dustin A. Gilbert,
    Physical Review B, 107, 184412 (9 pages) (May 2023). doi: 10.1103/PhysRevB.107.184412

  1883. Quantitative digital detection of magnetic beads using pseudo-spin-valve rings for multiplexed bioassays,
    J. Llandro, T.J. Hayward, D. Morecroft, J.A.C. Bland, F.J. Castaño, I.A. Colin, and C.A. Ross,
    Applied Physics Letters, 91, 203904 (3 pages) (Nov 2007). doi: 10.1063/1.2813622

  1884. Unidirectional magnetic anisotropy in dense vertically-standing arrays of passivated nickel nanotubes,
    Claudiu Locovei, Nicolae Filipoiu, Andrei Kuncser, Anda-Elena Stanciu, Ştefan Antohe, Camelia-Florina Florica, Andreea Costas, Ionuţ Enculescu, Luc Piraux, Victor Kuncser, and Vlad-Andrei Antohe,
    Nanomaterials, 10, 2444 (19 pages) (Dec 2020). doi: 10.3390/nano10122444

  1885. Domain walls in bent nanowires,
    F. Lofink, A. Philippi-Kobs, M.R. Rahbar Azad, S. Hankemeier, G. Hoffmann, R. Frömter, and H.P. Oepen,
    Physical Review Applied, 8, 024008 (13 pages) (Aug 2017). doi: 10.1103/PhysRevApplied.8.024008

  1886. Cross-sectional area dependence of tunnel magnetoresistance, thermal stability, and critical current density in MTJ,
    Aijaz H. Lone, Shivangi Shringi, Kishan Mishra, and Srikant Srinivasan,
    IEEE Transactions on Magnetics, 57, 4400410 (10 pages) (Feb 2021). doi: 10.1109/TMAG.2020.3039682

  1887. Coupled skyrmion breathing modes in synthetic ferri- and antiferromagnets,
    Martin Lonsky and Axel Hoffmann,
    Physical Review B, 102, 104403 (11 pages) (Sep 2020). doi: 10.1103/PhysRevB.102.104403

  1888. Mapping the magnetic coupling of self-assembled Fe3O4 nanocubes by electron holography,
    Lluís López-Conesa, Carlos Martínez-Boubeta, David Serantes, Sonia Estradé, and Francesca Peiró,
    Materials, 14, 774 (10 pages) (Feb 2021). doi: 10.3390/ma14040774

  1889. Precessional switching in narrow ring nanomagnets,
    L. Lopez-Diaz, M. Kläui, J. Rothman, and J.A.C. Bland,
    Physica B: Condensed Matter, 306, 211-215 (Dec 2001). doi: 10.1016/S0921-4526(01)01006-7

  1890. Fast and controllable switching in narrow ring nanomagnets,
    L. Lopez-Diaz, M. Kläui, J. Rothman, and J.A.C. Bland,
    Journal of Magnetism and Magnetic Materials, 242-245, 553-558 (Apr 2002). doi: 10.1016/S0304-8853(01)01152-0

  1891. Micromagnetic simulations using Graphics Processing Units,
    L. Lopez-Diaz, D. Aurelio, L. Torres, E. Martinez, M.A. Hernandez-Lopez, J. Gomez, O. Alejos, M. Carpentieri, G. Finocchio, and G. Consolo,
    Journal of Physics D: Applied Physics, 45, 323001 (17 pages) (Jul 2012). doi: 10.1088/0022-3727/45/32/323001

  1892. A local view of the laser induced magnetic domain dynamics in CoPd stripe domains at the picosecond time scale,
    V. López-Flores, M.-A. Mawass, J. Herrero-Albillos, A.A. Uenal, S. Valencia, F. Kronast, and C. Boeglin,
    Journal of Physics: Condensed Matter, 32, 465801 (8 pages) (Aug 2020). doi: 10.1088/1361-648x/aba1ac

  1893. Role of anisotropy on the domain wall properties of ferromagnetic nanotubes,
    J.A. López-López, D. Cortés-Ortuño, and P. Landeros,
    Journal of Magnetism and Magnetic Materials, 324, 2024-2029 (Jul 2012). doi: 10.1016/j.jmmm.2012.01.040

  1894. Magnetization patterns simulations of Fe, Ni, Co, and permalloy individual nanomagnets,
    F. López-Urías, J.J. Torres-Heredia, and E. Muñoz-Sandoval,
    Journal of Magnetism and Magnetic Materials, 294, e7-e12 (Jul 2005). doi: 10.1016/j.jmmm.2005.03.044

  1895. Cobalt double-ring and double-dot structures: Magnetic properties,
    F. López-Urías, J.J. Torres-Heredia, and E. Muñoz-Sandoval,
    Physica B: Condensed Matter, 483, 62-68 (Feb 2016). doi: 10.1016/j.physb.2015.12.026

  1896. Origin of perpendicular magnetic anisotropy in amorphous thin films,
    Daniel Lordan, Guannan Wei, Paul McCloskey, Cian O’Mathuna, and Ansar Masood,
    Scientific Reports, 11, 3734 (12 pages) (Feb 2021). doi: 10.1038/s41598-020-78950-7

  1897. Directional magnetization reversal enables ultrahigh energy density in gradient nanostructures,
    Li Lou, Yuqing Li, Xiaohong Li, Hailing Li, Wei Li, Yingxin Hua, Weixing Xia, Zhihe Zhao, Haitian Zhang, Ming Yue, and Xiangyi Zhang,
    Advanced Materials, 33, 2102800 (10 pages) (Sep 2021). doi: 10.1002/adma.202102800

  1898. A non-collinear double MgO based perpendicular magnetic tunnel junction,
    James Lourembam, Bingjin Chen, Aihong Huang, Salauddeen Allauddin, and Sze Ter Lim,
    Applied Physics Letters, 113, 022403 (5 pages) (Jul 2018). doi: 10.1063/1.5038060

  1899. Magnetization reversal of single domain permalloy nanowires,
    J. Lu and X.R. Wang,
    Journal of Magnetism and Magnetic Materials, 321, 2916-2919 (Sep 2009). doi: 10.1016/j.jmmm.2009.04.057

  1900. Motion of transverse domain walls in thin magnetic nanostripes under transverse magnetic fields,
    J. Lu and X.R. Wang,
    Journal of Applied Physics, 107, 083915 (9 pages) (Apr 2010). doi: 10.1063/1.3386468

  1901. Statics and field-driven dynamics of transverse domain walls in biaxial nanowires under uniform transverse magnetic fields,
    Jie Lu,
    Physical Review B, 93, 224406 (10 pages) (Jun 2016). doi: 10.1103/PhysRevB.93.224406

  1902. Multi-meron interactions and statistics in two-dimensional materials,
    Xiaobo Lu, Linghan Zhu, and Li Yang,
    Journal of Physics: Condensed Matter, 34, 275802 (10 pages) (May 2022). doi: 10.1088/1361-648x/ac671c

  1903. Effect of an exchange tab on the magnetization switching process of magnetic nanowires,
    S.Y.H. Lua, Y.H. Wu, K.L. Teo, and T.C. Chong,
    Journal of Physics D: Applied Physics, 40, 3011-3015 (May 2007). doi: 10.1088/0022-3727/40/10/S03

  1904. Chirality control and switching of vortices formed in hexagonal shaped ferromagnetic elements,
    S.Y.H. Lua, S.S. Kushvaha, Y.H. Wu, K.L. Teo, and T.C. Chong,
    Applied Physics Letters, 93, 122504 (3 pages) (Sep 2008). doi: 10.1063/1.2989135

  1905. Effect of in situ FIB trimming on the spin configurations of hexagonal-shaped elements characterized by SEMPA imaging,
    S.Y.H. Lua, S.S. Kushvaha, Y.H. Wu, K.L. Teo, and T.C. Chong,
    IEEE Transactions on Magnetics, 44, 3229-3232 (Nov 2008). doi: 10.1109/TMAG.2008.2002521

  1906. Spin configuration of hexagonal shaped ferromagnetic elements arranged in different structures,
    S.Y.H. Lua, S.S. Kushvaha, Y.H. Wu, K.L. Teo, and T.C. Chong,
    Journal of Applied Physics, 105, 07A319 (3 pages) (Feb 2009). doi: 10.1063/1.3067852

  1907. Tailoring the shape of flux guide reader for ultrahigh density magnetic recording,
    S.Y.H. Lua, J.C. Wang, and G. Han,
    Journal of Applied Physics, 109, 07B749 (3 pages) (Apr 2011). doi: 10.1063/1.3561794

  1908. Magnetization dynamics and magnetotransport in epitaxial nanostructures,
    R.A. Lukaszew, D. Pearson, Z. Zhang, and A. Zambano,
    Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, 22, 1371-1374 (Jul 2004). doi: 10.1116/1.1692250

  1909. Micromagnetic simulation of dynamic magnetic susceptibility and magnetostatic interaction fields of conical-shaped barium ferrite nanodot arrays,
    Jun Luo, Hui Zheng, Jiangxia Deng, Wei Chen, Peng Zheng, Liang Zheng, Qiong Wu, and Yang Zhang,
    Journal of Physics D: Applied Physics, 52, 405001 (7 pages) (Jul 2019). doi: 10.1088/1361-6463/ab3137

  1910. Conical-shaped hexagonal barium ferrite nanodot arrays on an alumina substrate based on an ultrathin alumina mask method,
    Jun Luo, Hui Zheng, Wei Chen, Peng Zheng, Liang Zheng, Qiong Wu, and Yang Zhang,
    Journal of Magnetism and Magnetic Materials, 489, 165449 (6 pages) (Nov 2019). doi: 10.1016/j.jmmm.2019.165449

  1911. Spin-torque oscillation in large size nano-magnet with perpendicular magnetic fields,
    Linqiang Luo, Mehdi Kabir, Nam Dao, Salinporn Kittiwatanakul, Michael Cyberey, Stuart A. Wolf, Mircea Stan, and Jiwei Lu,
    Journal of Magnetism and Magnetic Materials, 432, 356-361 (Jun 2017). doi: 10.1016/j.jmmm.2017.02.011

  1912. Skyrmion-based high-frequency signal generator,
    Shijiang Luo, Yue Zhang, Maokang Shen, Jun Ou-Yang, Baiqian Yan, Xiaofei Yang, Shi Chen, Benpeng Zhu, and Long You,
    Applied Physics Letters, 110, 112402 (5 pages) (Mar 2017). doi: 10.1063/1.4978510

  1913. Reconfigurable skyrmion logic gates,
    Shijiang Luo, Min Song, Xin Li, Yue Zhang, Jeongmin Hong, Xiaofei Yang, Xuecheng Zou, Nuo Xu, and Long You,
    Nano Letters, 18, 1180-1184 (Jan 2018). doi: 10.1021/acs.nanolett.7b04722

  1914. Voltage-controlled skyrmion memristor for energy-efficient synapse applications,
    Shijiang Luo, Nuo Xu, Zhe Guo, Yue Zhang, Jeongmin Hong, and Long You,
    IEEE Electron Device Letters, 40, 635-638 (Apr 2019). doi: 10.1109/LED.2019.2898275

  1915. Skyrmion latch and flip-flop in magnetic nanotracks with gradient anisotropy,
    Shijiang Luo, Min Song, Maokang Shen, Yue Zhang, Jeongmin Hong, and Long You,
    Journal of Magnetism and Magnetic Materials, 494, 165739 (4 pages) (Jan 2020). doi: 10.1016/j.jmmm.2019.165739

  1916. Thermally assisted skyrmion memory (TA-SKM),
    Shijiang Luo, Nuo Xu, Yaoyuan Wang, Jeongmin Hong, and Long You,
    IEEE Electron Device Letters, 41, 932-935 (Jun 2020). doi: 10.1109/LED.2020.2986312

  1917. Intrinsic oscillation of coupled domain walls in a perpendicularly magnetized nanowire system,
    Xin Luo, Zhihong Lu, Cheng Yuan, Fang Guo, Rui Xiong, and Jing Shi,
    Journal of Applied Physics, 119, 233901 (6 pages) (Jun 2016). doi: 10.1063/1.4953764

  1918. Resonance frequency of ferromagnetic thin film controlled by rectangle antidot arrays,
    X.J. Luo, P.H. Zhou, X. Wang, J.L. Xie, and L.J. Deng,
    IEEE Transactions on Magnetics, 51, 2004504 (4 pages) (Nov 2015). doi: 10.1109/TMAG.2015.2439062

  1919. Study on ferromagnetic properties in FeCo-based amorphous thin films with different thickness,
    X.J. Luo, Peiheng Zhou, H.P. Lu, J.L. Xie, and L.J. Deng,
    Thin Solid Films, 619, 227-230 (Nov 2016). doi: 10.1016/j.tsf.2016.10.061

  1920. Large area nanorings fabricated using an atomic layer deposition Al2O3 spacer for magnetic random access memory application,
    Y. Luo, Y. Du, and V. Misra,
    Nanotechnology, 19, 265301 (5 pages) (Jul 2008). doi: 10.1088/0957-4484/19/26/265301

  1921. Fabrication of large area nano-rings for MRAM application,
    Y. Luo and V. Misra,
    Microelectronic Engineering, 85, 1555-1560 (Jul 2008). doi: 10.1016/j.mee.2008.03.004

  1922. Effect of Dzyaloshinskii-Moriya interaction on magnetic vortex,
    Y.M. Luo, C. Zhou, C. Won, and Y.Z. Wu,
    AIP Advances, 4, 047136 (10 pages) (Apr 2014). doi: 10.1063/1.4874135

  1923. Gyration eigenfrequencies of vertically coupled vortices in layered magnetic disks,
    Y.M. Luo, C. Zhou, C. Won, and Y.Z. Wu,
    Journal of Applied Physics, 116, 213909 (5 pages) (Dec 2014). doi: 10.1063/1.4903039

  1924. Magnetic vortex gyration affected by Dzyaloshinskii-Moriya interaction,
    Y.M. Luo, C. Zhou, C. Won, and Y.Z. Wu,
    Journal of Applied Physics, 117, 163916 (6 pages) (Apr 2015). doi: 10.1063/1.4919423

  1925. Edge-soliton-meditated fast vortex core dynamic switching in a notched magnetic disk,
    Y.M. Luo, T.J. Zhou, Z.H. Qian, X. Xiao, Z.T. Liu, C. Zhou, C. Won, and Y.Z. Wu,
    Journal of Magnetism and Magnetic Materials, 474, 544-550 (Mar 2019). doi: 10.1016/j.jmmm.2018.11.067

  1926. Separated edge-soliton-mediated dynamic switching of vortex chirality and polarity,
    Y.M. Luo, Y.Z. Wu, C.Q. Yu, H. Li, J.H. Wen, L.Y. Zhu, Z.H. Qian, and T.J. Zhou,
    Physical Review Applied, 11, 044090 (9 pages) (Apr 2019). doi: 10.1103/PhysRevApplied.11.044090

  1927. Fast and deterministic switching of a vortex core induced by an out-of-plane current in notch disks,
    Y.M. Luo, Y.Z. Wu, Z.H. Qian, J.H. Wen, H. Li, C.Q. Yu, L.Y. Zhu, L. Wang, L. Xu, R. Bai, and T.J. Zhou,
    Nanotechnology, 31, 205302 (7 pages) (Mar 2020). doi: 10.1088/1361-6528/ab70f9

  1928. Radio frequency precession modulation-based magnetic field sensors,
    Kevin Q.T. Luong, Wei Gu, Foad Fereidoony, Lap Yeung, Zhi Yao, and Yuanxun Ethan Wang,
    IEEE Access, 10, 3756-3765 (Jan 2022). doi: 10.1109/ACCESS.2021.3140142

  1929. Size dependence of spin-wave modes in Ni80Fe20 nanodisks,
    P. Lupo, D. Kumar, and A.O. Adeyeye,
    AIP Advances, 5, 077179 (7 pages) (Jul 2015). doi: 10.1063/1.4927769

  1930. Probing dipole coupled nanomagnets using magnetoresistance read,
    A. Lyle, A. Klemm, J. Harms, Y. Zhang, H. Zhao, and J.-P. Wang,
    Applied Physics Letters, 98, 092502 (3 pages) (Feb 2011). doi: 10.1063/1.3558915

  1931. Electric field-induced creation and directional motion of domain walls and skyrmion bubbles,
    Chuang Ma, Xichao Zhang, Jing Xia, Motohiko Ezawa, Wanjun Jiang, Teruo Ono, S.N. Piramanayagam, Akimitsu Morisako, Yan Zhou, and Xiaoxi Liu,
    Nano Letters, 19, 353-361 (Dec 2018). doi: 10.1021/acs.nanolett.8b03983

  1932. Micromagnetic simulation of ferrimagnetic TbFeCo films with exchange coupled nanophases,
    Chung T. Ma, Xiaopu Li, and S. Joseph Poon,
    Journal of Magnetism and Magnetic Materials, 417, 197-202 (Nov 2016). doi: 10.1016/j.jmmm.2016.04.096

  1933. Tunable magnetic skyrmions in ferrimagnetic Mn4N,
    Chung T. Ma, Timothy Q. Hartnett, Wei Zhou, Prasanna V. Balachandran, and S. Joseph Poon,
    Applied Physics Letters, 119, 192406 (7 pages) (Nov 2021). doi: 10.1063/5.0066375

  1934. Interfacial mixing effect in a promising skyrmionic material: Ferrimagnetic Mn4N,
    Chung T. Ma, Wei Zhou, Brian J. Kirby, and S. Joseph Poon,
    AIP Advances, 12, 085023 (6 pages) (Aug 2022). doi: 10.1063/5.0109005

  1935. The architecture assembled from Ni nanocones and its microwave-absorbing properties,
    Fei Ma, Yong Qin, Fei Wang, and Desheng Xue,
    Scripta Materialia, 63, 1145-1148 (Dec 2010). doi: 10.1016/j.scriptamat.2010.07.040

  1936. Interfacial Dzialoshinskii-Moriya interaction induced nonreciprocity of spin waves in magnonic waveguides,
    Fusheng Ma and Yan Zhou,
    RSC Advances, 4, 46454-46459 (Sep 2014). doi: 10.1039/C4RA07326F

  1937. Skyrmion-based dynamic magnonic crystal,
    Fusheng Ma, Yan Zhou, H.B. Braun, and W.S. Lew,
    Nano Letters, 15, 4029-4036 (May 2015). doi: 10.1021/acs.nanolett.5b00996

  1938. Magnonic band structure in a skyrmion magnonic crystal,
    Fusheng Ma, Yan Zhou, and Wen Siang Lew,
    IEEE Transactions on Magnetics, 51, 1500404 (4 pages) (Nov 2015). doi: 10.1109/TMAG.2015.2443181

  1939. Magnetic-field-orientation dependent magnetization reversal and spin waves in elongated permalloy nanorings,
    F.S. Ma, V.L. Zhang, Z.K. Wang, H.S. Lim, S.C. Ng, M.H. Kuok, Y. Ren, and A.O. Adeyeye,
    Journal of Applied Physics, 108, 053909 (6 pages) (Sep 2010). doi: 10.1063/1.3475648

  1940. Micromagnetic study of spin wave propagation in bicomponent magnonic crystal waveguides,
    F.S. Ma, H.S. Lim, Z.K. Wang, S.N. Piramanayagam, S.C. Ng, and M.H. Kuok,
    Applied Physics Letters, 98, 153107 (3 pages) (Apr 2011). doi: 10.1063/1.3579531

  1941. Effect of interrow magnetic coupling on band structures of 2-D magnonic crystal waveguides,
    Fu Sheng Ma, Hock Siah Lim, Zhi Kui Wang, S.N. Piramanayagam, Ser Choon Ng, and Meng Hau Kuok,
    IEEE Transactions on Magnetics, 47, 2689-2692 (Oct 2011). doi: 10.1109/TMAG.2011.2156767

  1942. Band structures of exchange spin waves in one-dimensional bi-component magnonic crystals,
    F.S. Ma, H.S. Lim, V.L. Zhang, Z.K. Wang, S.N. Piramanayagam, S.C. Ng, and M.H. Kuok,
    Journal of Applied Physics, 111, 064326 (4 pages) (Mar 2012). doi: 10.1063/1.3698617

  1943. Materials optimization of the magnonic bandgap in two-dimensional bi-component magnonic crystal waveguides,
    F.S. Ma, H.S. Lim, V.L. Zhang, Z.K. Wang, S.N. Piramanayagam, S.C. Ng, and M.H. Kuok,
    Nanoscience and Nanotechnology Letters, 4, 663-666 (Jun 2012). doi: 10.1166/nnl.2012.1364

  1944. Magnonic band structure investigation of one-dimensional bi-component magnonic crystal waveguides,
    Fu Sheng Ma, Hock Siah Lim, Vanessa Li Zhang, Ser Choon Ng, and Meng Hau Kuok,
    Nanoscale Research Letters, 7, 498 (7 pages) (Sep 2012). doi: 10.1186/1556-276X-7-498

  1945. Enhanced coercivity of Nd-Ce-Fe-B sintered magnets by adding (Nd, Pr)-H powders,
    Tianyu Ma, Bo Wu, Yujing Zhang, Jiaying Jin, Kaiyun Wu, Shan Tao, Weixing Xia, and Mi Yan,
    Journal of Alloys and Compounds, 721, 1-7 (Oct 2017). doi: 10.1016/j.jallcom.2017.05.257

  1946. Grain boundary restructuring of multi-main-phase Nd-Ce-Fe-B sintered magnets with Nd hydrides,
    Tianyu Ma, Mi Yan, Kaiyun Wu, Bo Wu, Xiaolian Liu, Xuejiao Wang, Zeyu Qian, Chen Wu, and Weixing Xia,
    Acta Materialia, 142, 18-28 (Jan 2018). doi: 10.1016/j.actamat.2017.09.045

  1947. Position-dependent spontaneous motion of the magnetic domain wall in ferromagnetic nanowires,
    Xiao-Ping Ma, Hong-Guang Piao, Je-Ho Shim, Dede Djuhana, and Dong-Hyun Kim,
    Journal of the Korean Physical Society, 62, 288-291 (Jan 2013). doi: 10.3938/jkps.62.288

  1948. Ratchet effect of virtual domain wall motion in discrete magnetic nanodot chains,
    Xiao-Ping Ma, Seon-Dae Kim, Hong-Guang Piao, and Dong-Hyun Kim,
    Applied Physics Express, 10, 125001 (4 pages) (Nov 2017). doi: 10.7567/APEX.10.125001

  1949. Field-controllable injection of virtual magnetic domain wall in discrete magnetic nanodot chains,
    Xiao-Ping Ma, Seon-Dae Kim, Hong-Guang Piao, and Dong-Hyun Kim,
    Current Applied Physics, 18, 50-54 (Jan 2018). doi: 10.1016/j.cap.2017.10.013

  1950. Suppression of Walker breakdown in gapped magnetic nanowires,
    Xiao-Ping Ma, Seon-Dae Kim, Seung-Young Park, Yeon Suk Choi, Hong-Guang Piao, and Dong-Hyun Kim,
    Journal of Applied Physics, 124, 083905 (4 pages) (Aug 2018). doi: 10.1063/1.5038128

  1951. Cherenkov-type three-dimensional breakdown behavior of the Bloch-point domain wall motion in the cylindrical nanowire,
    Xiao-Ping Ma, Jiangshan Zheng, Hong-Guang Piao, Dong-Hyun Kim, and Peter Fischer,
    Applied Physics Letters, 117, 062402 (6 pages) (Aug 2020). doi: 10.1063/5.0013002

  1952. Microwave-driven dynamic switching of the radial vortex in a nanodot by micromagnetic simulation,
    Yunxu Ma, Chengkun Song, Chendong Jin, Jinshuai Wang, Haiyan Xia, Yurui Wei, Jianbo Wang, and Qingfang Liu,
    Journal of Physics D: Applied Physics, 52, 195001 (6 pages) (Mar 2019). doi: 10.1088/1361-6463/ab0356

  1953. Current-driven radial vortex switching in a permalloy nanodisk,
    Yunxu Ma, Ruhui Zhao, Chengkun Song, Chendong Jin, Jinshuai Wang, Yurui Wei, Yi Huang, Jianing Wang, Jianbo Wang, and Qingfang Liu,
    Journal of Magnetism and Magnetic Materials, 491, 165544 (5 pages) (Dec 2019). doi: 10.1016/j.jmmm.2019.165544

  1954. Nano-oscillator based on radial vortex by overcoming the switching of core,
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  1978. Fan-out enabled spin wave majority gate,
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  1996. Tunable spin wave spectra in two-dimensional Ni80Fe20 antidot lattices with varying lattice symmetry,
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  1999. Studying the rate-dependent specific absorption rate in magnetic hyperthermia through multiscale simulations,
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  2000. Optimized standard cells for all-spin logic,
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  2001. CoMET: Composite-input magnetoelectric-based logic technology,
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  2002. SkyLogic—A proposal for a skyrmion-based logic device,
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  2003. Spin wave diffraction and perfect imaging of a grating,
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  2004. Influence of Ga+ milling on the spin waves modes in a Co2MnSi Heusler magnonic crystal,
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  2005. Cubic anisotropy for a reconfigurable magnonic crystal based on Co2MnSi Heusler alloy,
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  2006. A micromagnetic solver for large-scale patterned media based on non-structured meshing,
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  2007. MnGa-based fully perpendicular magnetic tunnel junctions with ultrathin Co2MnSi interlayers,
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  2008. Characterization of magnetic properties at edges by edge-mode dynamics,
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  2009. Thin film edge property measurements by edge saturation,
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  2010. Variation of thin film edge magnetic properties with patterning process conditions in Ni80Fe20 stripes,
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  2011. Skyrmion-like bubbles and stripes in a thin ferromagnetic film with lattice of antidots,
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  2012. Reconfigurable superconducting vortex pinning potential for magnetic disks in hybrid structures,
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  2013. Spin mixing and spin-current asymmetry measured by domain wall magnetoresistance,
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  2014. Spin-polarised currents and magnetic domain walls,
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  2015. Influence of the winding number on field-and current driven dynamics of magnetic vortices and antivortices,
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  2016. Phase diagram for magnetic vortex core switching studied by ferromagnetic absorption spectroscopy and time-resolved transmission x-ray microscopy,
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  2017. Local modes and two magnon scattering in ordered permalloy antidot arrays,
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  2018. Exchange spring driven spin flop transition in ErFe2/YFe2 multilayers,
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  2019. Spin-flop transition driven by exchange springs in ErFe/ YFe multilayers,
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  2020. Transition metal sublattice magnetization and the anomalous Hall effect in (110)-ErFe2/YFe2 multilayers,
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  2021. Micromagnetic analysis of the magnetization dynamics driven by the Oersted field in permalloy nanorings,
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  2022. Interactions between 180° and 360° domain walls in magnetic multilayer stripes,
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  2023. ac and dc current-induced motion of a 360° domain wall,
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  2024. 360° domain wall mediated reversal in rhombic Co/Cu/NiFe magnetic rings,
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  2025. Fabrication and characterization of fully epitaxial magnetic tunnel junction field sensors using a Co2MnSi thin film,
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  2026. Ferromagnetic Ni nanoparticle with controlled anisotropy: From polyhedral to planar tetrapods,
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  2027. Magnetoresistance curves of spin valves using the (1 1 0) cobalt ferrite pinning layer,
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  2028. Studies of magnetization reversals about two kinds of MR curves observed in the spin valve using the (110) magnetite pinning layer,
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  2029. Detection of edge magnetic state by a ballistic bend resistance measurement,
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  2030. Spin interference and Fabry-Pérot resonances in ferromagnet-semiconductor-ferromagnet devices,
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  2031. A novel and reliable interlayer exchange coupled nanomagnetic universal logic gate design,
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  2032. Interlayer exchange couple based reliable and robust 3-input adder design methodology,
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  2034. Precessional direct-write switching in micrometer-sized magnetic tunnel junctions,
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  2039. Controlled domain wall injection into ferromagnetic nanowires from an optimized pad geometry,
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  2041. Comparison of magnetostatic field calculation methods on two-dimensional square grids as applied to a micromagnetic standard problem,
    R.D. McMichael, M.J. Donahue, D.G. Porter, and J. Eicke,
    Journal of Applied Physics, 85, 5816-5818 (Apr 1999). doi: 10.1063/1.369929

  2042. Domain wall traps for low-field switching of sub-micron elements,
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  2043. Strong anisotropy in thin magnetic films deposited on obliquely sputtered Ta underlayers,
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  2044. Switching dynamics and critical behavior of standard problem No. 4,
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    Journal of Applied Physics, 89, 7603-7605 (Jun 2001). doi: 10.1063/1.1355356

  2045. Magnetic normal modes of nanoelements,
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    Journal of Applied Physics, 97, 10J901 (3 pages) (May 2005). doi: 10.1063/1.1852191

  2046. Edge saturation fields and dynamic edge modes in ideal and nonideal magnetic film edges,
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  2047. Thickness dependence of magnetic film edge properties in Ni80Fe20 stripes,
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  2048. Effect of varying dimensions on gadolinium rectangular thin film elements: Micromagnetic simulations,
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    Journal of Magnetism and Magnetic Materials, 449, 88-93 (Mar 2018). doi: 10.1016/j.jmmm.2017.10.009

  2049. Localized magnetic fields in arbitrary directions using patterned nanomagnets,
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  2050. Coupling of spin-wave modes in extended ferromagnetic thin film antidot arrays,
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  2051. Quantitative imaging of magnetic domain walls in thin films using Lorentz and magnetic force microscopies,
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  2052. Imaging Amperian currents by Lorentz microscopy,
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  2053. Quantitative Fresnel Lorentz microscopy and the transport of intensity equation,
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  2054. Locally resolved ferromagnetic resonance in Co stripes,
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  2055. Microwave spectroscopy based on scanning thermal microscopy: Resolution in the nanometer range,
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  2056. Electric field driven multi-state magnetization switching in triangular nanomagnets on piezoelectric substrate,
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  2057. Tunability of spin-wave spectra in a 2D triangular shaped magnonic fractals,
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  2058. Magnetic electrodes for spin-polarized injection into InAs,
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  2059. Investigation of ferromagnetic microstructures as electrodes for spin-polarized transport experiments,
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  2060. Field effect in InAs/permalloy hybrid transistors,
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  2061. Hall micromagnetometry on iron electrodes suitable for spin-polarized transport,
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  2062. Comparative study of magnetization reversal in isolated and strayfield coupled microcontacts,
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  2063. Direct imaging of stochastic domain-wall motion driven by nanosecond current pulses,
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  2064. Current-induced domain-wall motion in permalloy semi rings,
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  2065. Stray-field-induced modification of coherent spin dynamics,
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  2066. Gate tunability of stray-field-induced electron spin precession in a GaAs/InxGa1-xAs quantum well below an interdigitated magnetized Fe grating,
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  2067. Optimized stray-field-induced enhancement of the electron spin precession by buried Fe gates,
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  2068. Dynamics of magnetic charges in artificial spin ice,
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    Physical Review Letters, 105, 187206 (4 pages) (Oct 2010). doi: 10.1103/PhysRevLett.105.187206

  2069. Analysis of the magnetostatic energy of chains of single-domain nanomagnets for logic gates,
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  2070. Spin-wave confinement in rolled-up ferromagnetic tubes,
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    Applied Physics Letters, 93, 262501 (3 pages) (Dec 2008). doi: 10.1063/1.3058764

  2071. In-plane magnetoresistance and magnetization reversal of cobalt antidot arrays,
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  2072. Direct visualization of magnetic vortex pinning in superconductors,
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  2073. Easy axis magnetization reversal in cobalt antidot arrays,
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  2074. Parity effects in 120° spin spirals,
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    Physical Review Letters, 112, 047204 (5 pages) (Jan 2014). doi: 10.1103/PhysRevLett.112.047204

  2075. Equilibrium large vortex state in ferromagnetic disks,
    Konstantin L. Metlov,
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  2076. Influence of boundary roughness on the magnetization reversal in submicron sized magnetic tunnel junctions,
    D. Meyners, H. Brückl, and G. Reiss,
    Journal of Applied Physics, 93, 2676-2680 (Mar 2003). doi: 10.1063/1.1544424

  2077. Experimental realization of two-dimensional artificial skyrmion crystals at room temperature,
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    Physical Review B, 90, 174411 (5 pages) (Nov 2014). doi: 10.1103/PhysRevB.90.174411

  2078. Micromagnetic study of excitation modes of an artificial skyrmion crystal,
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    Applied Physics Letters, 107, 222402 (5 pages) (Nov 2015). doi: 10.1063/1.4936756

  2079. Domain wall induced magnetoresistance in a superconductor/ferromagnet nanowire,
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    Applied Physics Letters, 99, 032501 (3 pages) (Jul 2011). doi: 10.1063/1.3610947

  2080. Tailoring the magnetic properties of cobalt antidot arrays by varying the pore size and degree of disorder,
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  2081. Micromagnetic simulation of magnetic small-angle neutron scattering from two-phase nanocomposites,
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  2082. X-ray resonant magnetic scattering study of magnetic stripe domains in a-GdFe thin films,
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  2083. Time-resolved magnetization dynamics of cross-tie domain walls in permalloy microstructures,
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  2084. Application of magnetic force microscopy for investigation of epitaxial ferro- and antiferromagnetic structures,
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  2085. Influence of shape, size and internal structure on magnetic properties of core-edge nanodots with perpendicular anisotropy,
    E. Milińska and A. Wawro,
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  2086. Vortex manipulation in superconducting films with tunable magnetic topology,
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  2087. Effects of disorder and internal dynamics on vortex wall propagation,
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  2088. Effects of disorder on magnetic vortex gyration,
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  2089. Transitions between the states with uniform and vortex distributions of magnetization in ferromagnetic nanoparticles under the action of an inhomogeneous magnetic field,
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  2090. MFM probe control of magnetic vortex chirality in elliptical Co nanoparticles,
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  2091. Antivortex state in crosslike nanomagnets,
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  2092. Field-controlled domain wall pinning-depinning effects in a ferromagnetic nanowire-nanoislands system,
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  2093. Magnetostatic interaction effects in an ordering hexagonal array of ferromagnetic nanoparticles,
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    Bulletin of the Russian Academy of Sciences: Physics, 77, 32-35 (Jan 2013). doi: 10.3103/S1062873813010188

  2094. Controlled domain wall pinning in permalloy nanowire by nanoparticle stray fields,
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    IEEE Transactions on Magnetics, 52, 1100607 (7 pages) (Dec 2016). doi: 10.1109/TMAG.2016.2564947

  2095. Pinning of domain wall in composite ferromagnetic nanowire consisting of two layers with distinct magnetic anisotropy,
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  2096. Manipulation and sorting of magnetic particles by a magnetic force microscope on a microfluidic magnetic trap platform,
    Elizabeth Mirowski, John Moreland, Arthur Zhang, Stephen E. Russek, and Michael J. Donahue,
    Applied Physics Letters, 86, 243901 (3 pages) (Jun 2005). doi: 10.1063/1.1947368

  2097. Stiff modes in spinvalve simulations with OOMMF,
    Spyridon Mitropoulos, Vassilis Tsiantos, Kyriakos Ovaliadis, Dimitris Kechrakos, and Michael Donahue,
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  2098. Magnetic vortices in single crystalline Fe-V disks with four folds magnetic anisotropy,
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    Applied Physics Letters, 100, 192406 (4 pages) (May 2012). doi: 10.1063/1.4711219

  2099. Voltage-induced magnetization dynamics in CoFeB/MgO/CoFeB magnetic tunnel junctions,
    Katsuya Miura, Shin Yabuuchi, Masaki Yamada, Masahiko Ichimura, Bivas Rana, Susumu Ogawa, Hiromasa Takahashi, Yasuhiro Fukuma, and Yoshichika Otani,
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  2100. Micromagnetic calculation for magnetic tunnel junctions with equal parallel and antiparallel thermal stability,
    Katsuya Miura, Shin Yabuuchi, Masaki Yamada, and Hirotaka Hamamura,
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  2101. Formations of magnetic vortices in a chain array of triangle Py dots and an isosceles triangle Py dot,
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  2102. Magnetic interaction of submicron-sized ferromagnetic rings in one-dimensional array,
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    Applied Physics Letters, 89, 122508 (3 pages) (Sep 2006). doi: 10.1063/1.2354584

  2103. Control of interlayer magnetostatic coupling in submicron-sized Fe/Au/Fe rings,
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    Applied Physics Letters, 92, 032502 (3 pages) (Jan 2008). doi: 10.1063/1.2830702

  2104. Local Hall measurement of magnetization reversal and magnetic interaction in Fe/Au/Fe trilayer rings,
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  2105. Magnetic properties of perpendicularly orientated L10 FePt nanoparticles,
    XiaoJing Mo, Hui Xiang, GuoQing Li, Peng Chen, ZuHong Xiong, JunZhong Wang, ShunJi Ishio, Hitoshi Saito, ToshiYuki Shima, and KoKi Takanashi,
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  2106. Micromagnetic study of nonlinear effects in soft magnetic materials,
    G. Mohler, A.W. Harter, and R.L. Moore,
    Journal of Applied Physics, 93, 7456-7458 (May 2003). doi: 10.1063/1.1557362

  2107. Low-current-density magnetic tunnel junctions for STT-RAM application using MgOxN1-x (x=0.57) tunnel barrier,
    Mohamad G. Moinuddin, Aijaz H. Lone, Shivangi Shringi, Srikant Srinivasan, and Satinder K. Sharma,
    IEEE Transactions on Electron Devices, 67, 125-132 (Jan 2020). doi: 10.1109/TED.2019.2954131

  2108. Visualization for micromagnetics with synchronized plotting,
    Jakub Mojsiejuk, Paweł Kulig, Jakub Chęciński, and Marek Frankowski,
    IEEE Transactions on Magnetics, 56, 7200106 (6 pages) (Feb 2020). doi: 10.1109/TMAG.2019.2949515

  2109. A three-terminal dual-pillar STT-MRAM for high-performance robust memory applications,
    Niladri Narayan Mojumder, Sumeet Kumar Gupta, Sri Harsha Choday, Dmitri E. Nikonov, and Kaushik Roy,
    IEEE Transactions on Electron Devices, 58, 1508-1516 (May 2011). doi: 10.1109/TED.2011.2116024

  2110. Frequency-domain magnetic resonance—Alternative detection schemes for samples at the nanoscale,
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    Journal of Surfaces and Interfaces of Materials, 2, 46-68 (Mar 2014). doi: 10.1166/jsim.2014.1035

  2111. Stable two- and three-dimensional geometrically constrained magnetic structures: The action of magnetic fields,
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    Physical Review B, 65, 184425 (6 pages) (May 2002). doi: 10.1103/PhysRevB.65.184425

  2112. Spin-texture driven reconfigurable magnonics in chains of connected Ni80Fe20 submicron dots,
    Amrit Kumar Mondal, Chandrima Banerjee, Arundhati Adhikari, Avinash Kumar Chaurasiya, Samiran Choudhury, Jaivardhan Sinha, Saswati Barman, and Anjan Barman,
    Physical Review B, 101, 224426 (7 pages) (Jun 2020). doi: 10.1103/PhysRevB.101.224426

  2113. Transition from strongly collective to completely isolated ultrafast magnetization dynamics in two-dimensional hexagonal arrays of nanodots with varying inter-dot separation,
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  2114. Influence of anisotropic dipolar interaction on the spin dynamics of Ni80Fe20 nanodot arrays arranged in honeycomb and octagonal lattices,
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  2115. Magnetic vortex transistor based tri-state buffer switch,
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    Journal of Magnetism and Magnetic Materials, 502, 166520 (8 pages) (May 2020). doi: 10.1016/j.jmmm.2020.166520

  2116. Stability of a pinned magnetic domain wall as a function of its internal configuration,
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  2117. Magnetically extracted microstructural development along the length of Co nanowire arrays: The interplay between deposition frequency and magnetic coercivity,
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  2118. Magnetization dynamics in exchange-coupled spring systems with perpendicular anisotropy,
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  2119. Towards an on-chip platform for the controlled application of forces via magnetic particles: A novel device for mechanobiology,
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  2120. On-chip magnetic platform for single-particle manipulation with integrated electrical feedback,
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  2121. Localized mechanical stimulation of single cells with engineered spatio-temporal profile,
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  2122. Soft spin waves and magnetization reversal in elliptical Permalloy nanodots: Experiments and dynamical matrix results,
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  2123. Spin mode calculations in nanometric magnetic rings: Localization effects in the vortex and saturated states,
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  2124. Dynamic origin of first and second order phase transitions in magnetization reversal of elliptical nanodots,
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    Physical Review B, 77, 214402 (6 pages) (Jun 2008). doi: 10.1103/PhysRevB.77.214402

  2125. Magnetization reversal and soft modes in nanorings: Transitions between onion and vortex states studied by Brillouin light scattering,
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  2126. Soft spin modes and magnetic transitions in trilayered nanodisks in the vortex state,
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    Journal of Applied Physics, 105, 07E304 (3 pages) (Feb 2009). doi: 10.1063/1.3065672

  2127. Spin modes of triangular magnetic nanodots in the vortex, Y, and buckle states,
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  2128. Vortex mode dynamics and bandwidth tunability in a two-dimensional array of interacting magnetic disks,
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  2129. Spin wave localization and softening in rod-shaped magnonic crystals with different terminations,
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  2130. Asymmetry of spin wave dispersions in a hexagonal magnonic crystal,
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  2131. Bandwidth broadening and asymmetric softening of collective spin waves in magnonic crystals,
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  2132. Dual band magnonic crystals: Model system and basic spin wave dynamics,
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  2133. Dynamic origin of segment magnetization reversal in thin-film Penrose tilings,
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  2134. Mutual influence between macrospin reversal order and spin-wave dynamics in isolated artificial spin-ice vertices,
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  2135. Controlling the three dimensional propagation of spin waves in continuous ferromagnetic films with an increasing out of plane undulation,
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  2136. Multiple Walker breakdowns in magnetic multilayers,
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  2137. Incoherent domain configuration along wire width in Permalloy nanowires,
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  2138. Experimental determination technique for magnetic anisotropy of individual nanowires,
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  2139. Control of skyrmion magnetic bubble gyration,
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  2140. Control of spin-wave refraction using arrays of skyrmions,
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  2142. Ultrathin interface regime of core-shell magnetic nanoparticles for effective magnetism tailoring,
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  2145. Planar Hall effect sensors with shape-induced effective single domain behavior,
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  2146. Collective switching of single-layer and exchange bias coupled nanomagnet arrays,
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  2150. Current-induced magnetization reversal in NiFe/Cu/Co/Au notched mesoscopic bars,
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  2152. Change in blocking temperature of nanoparticle array deposited on magnetoresistive sensor,
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  2153. Effect of the stray field of Fe/Fe3O4 nanoparticles on the surface of the CoFeB thin films,
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  2155. Tunnel magnetoresistance and spin torque switching in MgO-based magnetic tunnel junctions with a Co/Ni multilayer electrode,
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  2156. Vogel-Fulcher-Tammann freezing of a thermally fluctuating artificial spin ice probed by x-ray photon correlation spectroscopy,
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  2159. Uniaxial magnetic anisotropy in nanostructured Co/Cu(001): From surface ripples to nanowires,
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  2160. An achiral ferromagnetic/chiral antiferromagnetic bilayer system leading to controllable size and density of skyrmions,
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  2161. Hysteresis cycles of soft nanoparticles, influence of size, shape and material,
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  2162. Control of domain wall pinning by switchable nanomagnet state,
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  2173. Ni74Mn20Ga6 alloys grown by molecular beam epitaxy on GaAs/AlAs/In0.2Ga0.8As (001),
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  2175. A memristor based on current-induced domain-wall motion in a nanostructured giant magnetoresistance device,
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  2176. Micromagnetic simulations of hysteresis loops in ferromagnetic Reuleaux’s triangles,
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  2177. Direct observation of domain wall evolution at a bifurcation in magnetic network structures,
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  2178. Coupled domain wall oscillations in magnetic cylindrical nanowires,
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  2179. Magnetization reversal and interlayer coupling in Co50Fe50 nanomagnets,
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  2180. Magnetization dynamic analysis of square model CoFe and CoFeB ferromagnetic materials using micromagnetic simulation,
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  2181. Hysteresis observation of CoFe and CoFeB model disk using micromagnetic simulation,
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  2182. High sensitivity differential giant magnetoresistance (GMR) based sensor for non-contacting DC/AC current measurement,
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  2183. Low field optimization of a non-contacting high-sensitivity GMR-based DC/AC current sensor,
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  2185. Magnetic biosensors: Modelling and simulation,
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  2188. Current-induced domain wall motion in TbFeCo micro wire,
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  2190. Electrical observation of asymmetric magnetization configurations in the vortex state of NiFe and Co rings,
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  2193. 360 degree domain walls monitored by anisotropic magnetoresistance measurements,
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  2194. Formation and detection of 360° domain walls in Co rings,
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  2196. Effects of magnetic domain walls on the anisotropic magnetoresistance in NiFe nanowires,
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  2197. Accumulated magnetic domain walls in an asymmetric elliptical Co ring,
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  2198. Exchange-stiffness measurement scheme based on domain-wall chirality transition,
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  2199. Control of domain wall motion at vertically etched nanotrench in ferromagnetic nanowires,
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  2200. Modeling and design for magnetoelectric ternary content addressable memory (TCAM),
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  2201. Design of a compact spin-orbit-torque-based ternary content addressable memory,
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  2202. Correlated magnetic vortex chains in mesoscopic cobalt dot arrays,
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  2204. Correlated vortex chiralities in interacting permalloy dot patterns,
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  2205. Large-area nanopillar arrays by glancing angle deposition with tailored magnetic properties,
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  2207. Templates as shadow masks to tune the magnetic anisotropy in nanostructured CoCrPt/Ti bilayer films,
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  2209. Magnetic antiskyrmions above room temperature in tetragonal Heusler materials,
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  2210. Effect of low substrate temperature on the magnetic properties and domain structure of Fe70Ga30 thin films,
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  2212. Fabricating high-density magnetic storage elements by low-dose ion beam irradiation,
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  2213. Sub-nanosecond resolution x-ray magnetic circular dichroism photoemission electron microscopy of magnetization processes in a permalloy ring,
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  2214. Controlling domain walls velocities in ferromagnetic ring-shaped nanowires,
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  2215. Microwave assisted magnetization reversal in single domain nanoelements,
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    Applied Physics Letters, 95, 062506 (3 pages) (Aug 2009). doi: 10.1063/1.3196556

  2216. Effects of shape distortions and imperfections on mode frequencies and collective linewidths in nanomagnets,
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  2217. Comparison of measured and simulated spin-wave mode spectra of magnetic nanostructures,
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  2218. Modal spectrum of permalloy disks excited by in-plane magnetic fields,
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  2219. Simulation of micro-magnet stray-field dynamics for spin qubit manipulation,
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  2220. Visualization of vortex core polarity in NiFe nanodots by tilted Fresnel images,
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  2221. Formation of magnetic structure by domain wall confinement in nanoconstriction,
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  2222. A comparative study of operational engineering for environmental and compute-intensive applications,
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  2223. Magnetization switching detection of a single permalloy nanomagnet using magneto-transport measurements,
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  2224. Third type of domain wall in soft magnetic nanostrips,
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  2225. Competing interactions in artificial spin chains,
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  2226. Magnetization reversal via bloch points nucleation in nanowires and dots: A micromagnetic study,
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  2227. Magnetic bubbles and stripe domains in nanostructured FePd elements,
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  2228. Nanomagnet logic: Progress toward system-level integration,
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  2229. Shape engineering for controlled switching with nanomagnet logic,
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  2230. Strategies and tolerances of spin transfer torque switching,
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  2231. Proposal of a spin torque majority gate logic,
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  2232. Switching efficiency improvement in spin torque majority gates,
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  2233. Automotion of domain walls for spintronic interconnects,
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  2234. Benchmarking spintronic logic devices based on magnetoelectric oxides,
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  2235. Cascade-able spin torque logic gates with input-output isolation,
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  2236. Impact of reference-layer stray field on the write-error rate of perpendicular spin-transfer-torque random-access memory,
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  2237. Ground state lost but degeneracy found: The effective thermodynamics of artificial spin ice,
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  2238. Effective temperature in an interacting vertex system: Theory and experiment on artificial spin ice,
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  2239. Magnetization properties of microstructured NiFe rings investigated using semiconductor/ferromagnet hybrid structures,
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  2240. Focused MOKE study of self-assembly nanoscale Fe64Ni36 dot arrays,
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  2241. Anisotropic magnetization reversal in 30 nm triangular FeNi dots,
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  2242. Reduction of in-plane uniaxial magnetic anisotropy in patterned single-crystal Fe dot arrays,
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  2243. Photovoltage spectroscopy of dipolar spin waves in Dy micromagnets,
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  2244. Nanoscale magnetism control via surface and exchange anisotropy for optimized ferrimagnetic hysteresis,
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  2245. Magnetization process of cubic Fe3O4 submicron particles studied by polarized small-angle neutron scattering,
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  2246. Efficient inducement of bistable spin Hall effect using in-plane-magnetized V-shaped ferromagnetic wire,
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  2247. Longitudinal and transverse spin current absorptions in a lateral spin-valve structure,
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  2248. Unidirectional sub-100-ps magnetic vortex core reversal,
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  2249. Spin wave mediated unidirectional vortex core reversal by two orthogonal monopolar field pulses: The essential role of three-dimensional magnetization dynamics,
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  2250. Properties of magnetic nanodots with perpendicular anisotropy,
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  2251. Effect of perpendicular uniaxial anisotropy on the annihilation fields of magnetic vortices,
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  2252. Magnetostatic interdot coupling in arrays of circular ferromagnetic dots,
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  2253. Spin excitations of magnetic vortices in ferromagnetic nanodots,
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  2254. Shape effect on magnetization reversal in chains of interacting ferromagnetic elements,
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  2255. Magnetic vortex resonance in patterned ferromagnetic dots,
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  2256. Substantial reduction in the depinning field of vortex domain walls triggered by spin-transfer induced resonance,
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  2257. Influence of interlayer magnetostatic coupling on the ferromagnetic resonance properties of lithographically patterned ferromagnetic trilayers,
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  2258. Bistable control of ferromagnetic resonance frequencies in ferromagnetic trilayered dots,
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  2259. Quantifying spin Hall topological Hall effect in ultrathin Tm3Fe5O12/Pt bilayers,
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  2260. Magnetic force microscopy investigation of the magnetization reversal of permalloy particles at high temperatures,
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  2261. Magnetic structure of nickel nanowires after the high-density current pulse,
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  2262. Effect of mechanical stress on the domain structure of a planar Permalloy microparticle,
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    Bulletin of the Russian Academy of Sciences: Physics, 83, 815-817 (Jul 2019). doi: 10.3103/S106287381907030X

  2263. MFM study of domain structure of CoNi microparticles caused by mechanical stress,
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  2264. Application of planar permalloy microparticles for detecting mechanical stresses,
    N.I. Nurgazizov, D.A. Bizyaev, A.A. Bukharaev, I.V. Russkikh, and Yu.V. Sadchikov,
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  2265. Domain structure of CoNi microparticles under mechanical stress,
    N.I. Nurgazizov, A.P. Chuklanov, D.A. Biziyaev, A.A. Bukharaev, and V.V. Chirkov,
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  2266. Control of the magnetic structure of CoNi microparticles using mechanical stresses,
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  2267. Controlling the magnetic structure of CoNi microparticles by mechanical stress,
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  2268. Amplitudo osilasi posisi domain wall bahan feromagnetik nanowire berkontriksi segitiga ketika diberi medan luar ac dengan amplitudo 2 militesla,
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    Spektra: Jurnal Fisika dan Aplikasinya, 1, 65-70 (Aug 2016). doi: 10.21009/spektra.011.13

  2269. Near-field interaction between domain walls in adjacent Permalloy nanowires,
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  2270. Domain wall interactions at a cross-shaped vertex,
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  2271. Nanoscale mapping of the magnetic properties of (111)-oriented La0.67Sr0.33MnO3,
    Kerry J. O'Shea, Donald A. MacLaren, Damien McGrouther, Danny Schwarzbach, Markus Jungbauer, Sebastian Hühn, Vasily Moshnyaga, and Robert L. Stamps,
    Nano Letters, 15, 5868-5874 (Aug 2015). doi: 10.1021/acs.nanolett.5b01953

  2272. Reconfigurable lateral spin-wave transport in a ring magnonic microwaveguide,
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    JETP Letters, 110, 430-435 (Sep 2019). doi: 10.1134/S0021364019180061

  2273. The remagnetization process feature of trilayer nanodisks,
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    Solid State Phenomena, 168, 249-252 (2011). doi: 10.4028/www.scientific.net/SSP.168-169.249

  2274. Competition between vortex and “S”-like states in laterally confined magnetic trilayers,
    A.V. Ognev, M.E. Stebliy, A.S. Samardak, A. Nogaret, and L.A. Chebotkevich,
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  2275. An influence of mechanical deformations on crystal structure and spin configuration in magnetic nanowires,
    A.V. Ognev, A.S. Samardak, L.A. Chebotkevich, E.V. Sukovatitsina, M.E. Stebliy, E.B. Modin, E.V. Pustovalov, V.S. Plotnikov, and F. Nasirpouri,
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  2276. Micromagnetic simulation of small-angle neutron scattering from magnetic recording media,
    F.Y. Ogrin, S.L. Lee, M. Wismayer, T. Thomson, C.D. Dewhurst, R. Cubitt, and S.M. Weekes,
    Journal of Applied Physics, 99, 08G912 (3 pages) (Apr 2006). doi: 10.1063/1.2176314

  2277. Field- and temperature-modulated spin diode effect in a GMR nanowire with dipolar coupling,
    Piotr Ogrodnik, Francesco Antonio Vetrò, Marek Frankowski, Jakub Chęciński, Tomasz Stobiecki, Józef Barnaś, and Jean-Philippe Ansermet,
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  2278. Structural, magnetostatic, and magnetodynamic studies of Co/Mo-based uncompensated synthetic antiferromagnets,
    Piotr Ogrodnik, Jarosław Kanak, Maciej Czapkiewicz, Sławomir Ziętek, Aleksiej Pietruczik, Krzysztof Morawiec, Piotr Dłużewski, Krzysztof Dybko, Andrzej Wawro, and Tomasz Stobiecki,
    Physical Review Materials, 3, 124401 (15 pages) (Dec 2019). doi: 10.1103/PhysRevMaterials.3.124401

  2279. Confinement and protection of skyrmions by patterns of modified magnetic properties,
    Kentaro Ohara, Xichao Zhang, Yinling Chen, Zonhan Wei, Yungui Ma, Jing Xia, Yan Zhou, and Xiaoxi Liu,
    Nano Letters, 21, 4320-4326 (May 2021). doi: 10.1021/acs.nanolett.1c00865

  2280. Calculating the magnetocaloric effect in second-order-type material by micromagnetic simulations: A case study on Co2B,
    Dominik Ohmer, Min Yi, Maximilian Fries, Oliver Gutfleisch, and Bai-Xiang Xu,
    Scripta Materialia, 177, 218-222 (Mar 2020). doi: 10.1016/j.scriptamat.2019.10.039

  2281. Magnetic configuration of submicron-sized magnetic patterns in domain wall motion memory,
    N. Ohshima, H. Numata, S. Fukami, K. Nagahara, T. Suzuki, N. Ishiwata, K. Fukumoto, T. Kinoshita, and T. Ono,
    Journal of Applied Physics, 107, 103912 (9 pages) (May 2010). doi: 10.1063/1.3427555

  2282. Magnetic domain imaging of Ni micro ring and micro dot array by photoelectron emission microscopy,
    Taichi Okuda, Hideyuki Kiwata, Takeshi Matsushima, Takanori Wakita, Ayumi Harasawa, Kanta Ono, Takayuki Kihara, Masaharu Oshima, Atsushi Yokoo, and Toyohiko Kinoshita,
    Japanese Journal of Applied Physics, 43, 4179-4184 (Jul 2004). doi: 10.1143/JJAP.43.4179

  2283. Ballistic rectification of vortex domain wall chirality at nanowire corners,
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    Applied Physics Letters, 107, 222403 (5 pages) (Dec 2015). doi: 10.1063/1.4936565

  2284. Chirality-based vortex domain-wall logic gates,
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  2285. Magnetization reversal in concave iron nano-superellipses,
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    Condensed Matter, 6, 17 (11 pages) (Jun 2021). doi: 10.3390/condmat6020017

  2286. Fabrication and operation of magnetic quantum-dot cellular automata all magnetic logic,
    Alexei Orlov, Alexandra Imre, Lili Ji, Gyorgy Csaba, Gary H. Bernstein, and Wolfgang Porod,
    ECS Transactions, 3, 317-327 (Aug 2007). doi: 10.1149/1.2753264

  2287. Magnetic quantum-dot cellular automata: Recent developments and prospects,
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    Journal of Nanoelectronics and Optoelectronics, 3, 55-68 (Mar 2008). doi: 10.1166/jno.2008.004

  2288. Magnetic ordering in 45 nm-diameter multisegmented FeGa/Cu nanowires: Single nanowires and arrays,
    Eduardo Ortega, Sai Madhukar Reddy, Israel Betancourt, Sina Roughani, Bethanie J.H. Stadler, and Arturo Ponce,
    Journal of Materials Chemistry C, 5, 7546-7552 (Aug 2017). doi: 10.1039/C7TC02314F

  2289. Strain induced vortex core switching in planar magnetostrictive nanostructures,
    T.A. Ostler, R. Cuadrado, R.W. Chantrell, A.W. Rushforth, and S.A. Cavill,
    Physical Review Letters, 115, 067202 (5 pages) (Aug 2015). doi: 10.1103/PhysRevLett.115.067202

  2290. Chirality switching and propagation control of a vortex domain wall in ferromagnetic nanotubes,
    J.A. Otálora, J.A. López-López, P. Vargas, and P. Landeros,
    Applied Physics Letters, 100, 072407 (4 pages) (Feb 2012). doi: 10.1063/1.3687154

  2291. Domain wall manipulation in magnetic nanotubes induced by electric current pulses,
    J.A. Otálora, J.A. López-López, A.S. Núñez, and P. Landeros,
    Journal of Physics: Condensed Matter, 24, 436007 (7 pages) (Oct 2012). doi: 10.1088/0953-8984/24/43/436007

  2292. Oersted field assisted magnetization reversal in cylindrical core-shell nanostructures,
    J.A. Otálora, D. Cortés-Ortuño, D. Görlitz, K. Nielsch, and P. Landeros,
    Journal of Applied Physics, 117, 173914 (9 pages) (May 2015). doi: 10.1063/1.4919746

  2293. Determination of the micromagnetic structure of ferromagnetic patterns on the basis of experimental MFM-images and computer simulation,
    D.V. Ovchinnikov and A.A. Bukharaev,
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  2294. Topological-charge-driven reversal of ferromagnetic rings via 360° domain-wall formation,
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    Physical Review B, 87, 174408 (8 pages) (May 2013). doi: 10.1103/PhysRevB.87.174408

  2295. Static and dynamic behavior of 360° domain walls in patterned thin films,
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    Physical Review B, 87, 214403 (6 pages) (Jun 2013). doi: 10.1103/PhysRevB.87.214403

  2296. Spin transfer by nonuniform current injection into a nanomagnet,
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  2297. Sidewall oxide effects on spin-torque- and magnetic-field-induced reversal characteristics of thin-film nanomagnets,
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  2302. Bias-field tunable magnon-magnon coupling in Ni80Fe20 nanocross array,
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  2304. Magnetization reversal dynamics in Co nanowires with competing magnetic anisotropies,
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  2305. Acousto-plasmo-magnonics: Coupling spin waves with hybridized phonon-plasmon waves in a 2D artificial magnonic crystal deposited on a plasmonic material,
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  2306. Micromagnetic simulation of Fe asymmetric nanorings,
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  2307. Magnetic properties of Fe20Ni80 antidots: Pore size and array disorder,
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  2308. Spin waves in periodic antidot waveguide of complex base,
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  2311. Microstructure and magnetic microstructure of La + Co doped strontium hexaferrites,
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  2312. Micromagnetic simulation of magnetic vortex cores in circular permalloy disks: Switching behavior in external magnetic field,
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  2313. Current-induced nucleation, manipulation, and reversible switching of antiskyrmioniums,
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  2322. Tunable ground state in heterostructured artificial spin ice with exchange bias,
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  2332. Frequency control of a spin-torque oscillator using magnetostrictive anisotropy,
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  2333. Vortex head-to-head domain walls and their formation in onion-state ring elements,
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  2334. Large spin accumulation and crystallographic dependence of spin transport in single crystal gallium nitride nanowires,
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  2335. Néel-type skyrmions and their current-induced motion in van der Waals ferromagnet-based heterostructures,
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  2338. IMCS2: Novel device-to-architecture Co-design for low-power in-memory computing platform using coterminous spin switch,
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  2364. Bidomain state in exchange biased FeF2/Ni,
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  2365. Ultrafast optical demagnetization manipulates nanoscale spin structure in domain walls,
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  2368. Control of magnetization-reversal mechanism via uniaxial anisotropy strength in La0.67Sr0.33MnO3 electrodes for spintronic devices,
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  2369. Magnetoresistance in Fe0.8Ga0.2 thin films with magnetic stripes: The role of the three-dimensional magnetic structure,
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  2372. Micromagnetic simulation of damped oscillatory behavior of domain wall propagation in sinusoidal ferromagnetic nanowire,
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  2373. Ratchet effect of domain wall motion by GHz AC magnetic field in asymmetric sawtooth-shaped ferromagnetic nanowires,
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  2374. Three-dimensional spin configuration of ferromagnetic nanocubes,
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  2375. Translational positioning of a magnetic domain wall in ferromagnetic nanowires using a stray field filter,
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  2379. When do anisotropic magnetic susceptibilities lead to large NMR shifts? Exploring particle shape effects in the battery electrode material LiFePO4,
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  2380. Ferromagnetic resonance studies in Co/SiO2 multilayers,
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  2381. In-plane magnetic anisotropies in Ni/FeMn and Ni90Fe10/FeMn exchange biased bilayers,
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  2382. Out-of-plane magnetic anisotropy in columnar grown Fe-Ni films,
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  2383. Micromagnetic simulations for the magnetization reversal in ultrathin Fe/Rh/FeCo films,
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  2384. Micromagnetic simulations of tetrataenite: A systematic study,
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  2385. Spin-wave excitation and propagation in microstructured waveguides of yttrium iron garnet/Pt bilayers,
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  2386. Reversal modes and magnetostatic interactions in Fe3O4/ZrO2/Fe3O4 multilayer nanotubes,
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  2387. Spin configurations in nanostructured magnetic rings: From DC transport to GHz spectroscopy,
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  2388. Spin-wave interference in microscopic rings,
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  2389. Magnetization processes in rectangular versus rhombic planar superlattices of magnetic bars,
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  2390. Magnetic stray-field studies of a single Cobalt nanoelement as a component of the building blocks of artificial square spin ice,
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  2391. Experimental and theoretical investigation of the magnetization dynamics of an artificial square spin ice cluster,
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  2392. Unipolar and bipolar high-magnetic-field sensors based on surface acoustic wave resonators,
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  2393. Direct dynamic imaging of non-adiabatic spin torque effects,
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  2394. Picosecond spin-orbit torque-induced coherent magnetization switching in a ferromagnet,
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  2395. Current-driven tunability of magnonic crystal,
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  2396. Theoretical study of the magnetoresistance of a square straintronic element,
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  2397. Spin reorientation in the vicinity of the edge of ultrathin magnetic films and nanowires,
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  2398. Effect of the shape and lateral dimensions on the magnetization reversal in permalloy nanofilms,
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  2399. Target domains in nanometric Permalloy disks with columnar structure,
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  2400. Confinement of stable skyrmionium and skyrmion state in ultrathin nanoring,
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  2401. Investigation on the excitation of magnetic skyrmionium in a nanostructure,
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  2402. Four-state magnetic configuration in a tri-layer asymmetric ring,
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  2403. Effect of spatially asymmetric dipolar interactions in the magnetization reversal of closely spaced ferromagnetic nanoisland arrays,
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  2404. Exploring thermally induced states in square artificial spin-ice arrays,
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  2405. Generalization of a two-dimensional micromagnetic model to non-uniform thickness,
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  2406. Velocity of transverse domain wall motion along thin, narrow strips,
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  2407. Precession axis modification to a semianalytical Landau-Lifshitz solution technique,
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  2408. All optical detection of picosecond spin-wave dynamics in 2D annular antidot lattice,
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  2409. Effects of nanodots shape and lattice constants on the spin wave dynamics of patterned permalloy dots,
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  2410. Observation of angle-dependent mode conversion and mode hopping in 2D annular antidot lattice,
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  2411. Observation of spectral narrowing and mode conversion in two-dimensional binary magnonic crystal,
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  2412. Study of spin transfer torque in serially connected pillars by means of ferromagnetic resonance,
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  2413. Incoherent rotation and domain wall collision in rectangular thin magnetic films,
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  2414. Effect of random anisotropy in stabilization of skyrmions and antiskyrmions,
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  2415. Switching of ±360° domain wall states in a nanoring by an azimuthal Oersted field,
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  2416. Polarization dependent switching of asymmetric nanorings with a circular field,
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  2417. Micromagnetic simulations of spin-wave normal modes and the spin-transfer-torque driven magnetization dynamics of a ferromagnetic cross,
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  2418. Proposal of a multi-state memory using voltage controlled magnetic anisotropy of a cross-shaped ferromagnet,
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  2419. Realizing both short- and long-term memory within a single magnetic tunnel junction based synapse,
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  2420. Dual-tip magnetic force microscopy with suppressed influence on magnetically soft samples,
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  2421. In-plane reversal mechanisms in circular Co dots,
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  2422. Identifying weakly-interacting single domain states in Ni nanowire arrays by FORC,
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  2423. Magnetic reversal modes in cylindrical nanostructures: From disks to wires,
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  2424. Reliable nucleation of isolated magnetic antivortices,
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    Applied Physics Letters, 100, 162404 (3 pages) (Apr 2012). doi: 10.1063/1.3698150

  2425. Absorption spectroscopy of isolated magnetic antivortices,
    Matthias Pues, Michael Martens, and Guido Meier,
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  2426. Low-field current-hysteretic oscillations in spin-transfer nanocontacts,
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  2427. Physical implementation of coherently coupled oscillator networks,
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  2428. Magnetic switching depending on as-patterned magnetization state in Pac-man shaped Ni80Fe20 submicron elements,
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  2429. Micromagnetic configurations and switching mechanism in Pac-man-shaped submicron Ni80Fe20 magnets,
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  2430. Magnetic cellular automata wire architectures,
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    IEEE Transactions on Nanotechnology, 10, 1243-1248 (Nov 2011). doi: 10.1109/TNANO.2011.2109393

  2431. Coherence and modality of driven interlayer-coupled magnetic vortices,
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  2432. Symmetry breaking of magnetic vortices before annihilation,
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    Applied Physics Letters, 105, 132403 (5 pages) (Sep 2014). doi: 10.1063/1.4893422

  2433. Performance boost of spiral inductors with thickness controlled domain patterned permalloy,
    Vasu Pulijala and Azeemuddin Syed,
    IEEE Transactions on Magnetics, 51, 8400805 (5 pages) (May 2015). doi: 10.1109/TMAG.2015.2388678

  2434. Comparison of the effects of 60 nm and 96 nm thick patterned permalloy thin films on the performance of on-chip spiral inductors,
    Vasu Pulijala and Azeemuddin Syed,
    Journal of Magnetism and Magnetic Materials, 419, 245-248 (Dec 2016). doi: 10.1016/j.jmmm.2016.06.031

  2435. Current-induced coupled domain wall motions in a two-nanowire system,
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    Applied Physics Letters, 99, 152501 (3 pages) (Oct 2011). doi: 10.1063/1.3650706

  2436. Collective motions assisted by magnetostatic interactions in coupled domain wall system,
    Indra Purnama, Murapaka Chandra Sekhar, Sarjoosing Goolaup, and Wen Siang Lew,
    IEEE Transactions on Magnetics, 47, 3081-3084 (Oct 2011). doi: 10.1109/TMAG.2011.2158635

  2437. Remote driving of multiple magnetic domain walls due to topological interaction,
    I. Purnama, C.S. Murapaka, W.S. Lew, and T. Ono,
    Applied Physics Letters, 104, 092414 (4 pages) (Mar 2014). doi: 10.1063/1.4867468

  2438. Dynamic susceptibility of Fe3O4 nanotubes,
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  2439. Defect-induced monopole injection and manipulation in artificial spin ice,
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  2440. Regular and chaotic vortex core reversal by a resonant perpendicular magnetic field,
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  2441. Vortex polarity switching in magnets with surface anisotropy,
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  2442. Unidirectional tilt of domain walls in equilibrium in biaxial stripes with Dzyaloshinskii-Moriya interaction,
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  2443. A dual-bit spin-based analog-to-digital converter with double-check estimation,
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    IEEE Magnetics Letters, 12, 4503305 (5 pages) (Sep 2021). doi: 10.1109/LMAG.2021.3110485

  2444. Direct observation of the ice rule in an artificial kagome spin ice,
    Yi Qi, T. Brintlinger, and John Cumings,
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  2445. Intensity distribution, evolution, and dispersion of discrete spin wave modes in nanoscale spin-torque oscillator,
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  2446. Microwave spin-torque-induced magnetic resonance in a nanoring-shape-confined magnetic tunnel junction,
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  2447. Low-power digital latch circuit using magnetic logic device,
    Tao Qin, Li Cai, Xiaokuo Yang, and Mingliang Zhang,
    Electronics Letters, 51, 1800-1802 (Oct 2015). doi: 10.1049/el.2015.2487

  2448. Nature of magnetic domains in an exchange coupled BiFeO3/CoFe heterostructure,
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    Applied Physics Letters, 102, 112902 (5 pages) (Mar 2013). doi: 10.1063/1.4795794

  2449. A hybrid coercivity mechanism for exchange-coupled nanocomposite permanent magnets,
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    Journal of Rare Earths, 37, 1030-1033 (Oct 2019). doi: 10.1016/j.jre.2019.04.002

  2450. Dynamics of antiskyrmions induced by the voltage-controlled magnetic anisotropy gradient,
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  2451. Remanence enhancement in magnetically interacting particles,
    Heliang Qu and Jiang Yu Li,
    Physical Review B, 68, 212402 (4 pages) (Dec 2003). doi: 10.1103/PhysRevB.68.212402

  2452. Effective medium theory of magnetization reversal in magnetically interacting particles,
    Heliang Qu and JiangYu Li,
    IEEE Transactions on Magnetics, 41, 1093-1099 (Mar 2005). doi: 10.1109/TMAG.2004.843318

  2453. A disturbance-free energy-efficient STT-MRAM based on complementary polarizers,
    Lianhua Qu, Zhenyu Zhao, Yao Wang, Haoyue Tang, Huan Li, Quan Deng, and Peng Li,
    IEEE Electron Device Letters, 37, 1288-1291 (Oct 2016). doi: 10.1109/LED.2016.2602880

  2454. Observation and elimination of broken symmetry in L10 FePt nanostructures,
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    Applied Physics Letters, 107, 232401 (4 pages) (Dec 2015). doi: 10.1063/1.4936933

  2455. Reversible temperature-driven do