Везде

RAS PhysicsЖурнал экспериментальной и теоретической физики Journal of Experimental and Theoretical Physics

  • ISSN (Print) 0044-4510
  • ISSN (Online) 3034-641X

Synchronization of the Self-Oscillations of the Magnetic Vortices in Exchange-Coupled Ferromagnetic Disks

You can
PII
10.31857/S0044451023030082-1
DOI
10.31857/S0044451023030082
Publication type
Article
Status
Published
Authors
D. A Tatarskiy
  • Affiliation: Institute for Physics of Microstructures, Russian Academy of Sciences
Volume/ Edition
Volume 163 / Issue number 3
Pages
366-374
Abstract
The low-frequency (gyrotropic) self-oscillations of the magnetic vortices in interacting ferromagnetic disks, which are caused by a spin-polarized current, are studied by numerical simulation. Various magnetization oscillation modes depending on the configuration of the magnetic state of the system are considered. The influence of the pumping current nonuniformity on the phase difference of the vortex gyration in neighboring disks is investigated. The overlap of the disks is shown to increase the interaction between the vortices and, hence, to decrease the dephasing of the vortex core oscillations. The prospects of using overlapping disks to ensure phase synchronization of arrays of spin-transfer vortex oscillators are discussed.
Keywords
Date of publication
15.03.2023
Year of publication
2023
Number of purchasers
0
Views
42

References

  1. 1. Z. Zeng, G. Finocchio, and H. Jiang, Nanoscale 5, 2219 (2013).
  2. 2. T. Chen, R. Dumas, A. Eklund, P. Muduli, A. Houshang, A. Awad, P. Durrenfeld, B. Malm, A. Rusu, and J. Akerman, Proc. IEEE 104, 7505988 (2016).
  3. 3. J. Slonczewski, J.Magn.Magn.Mater. 159, L1 (1996).
  4. 4. L. Berger, Phys.Rev.B 54, 9353 (1996).
  5. 5. S. Kiselev, J. Sankey, I. Krivorotov, N. Emley, R. Schoelkopf, R. Buhrman, and D. Ralph, Nature 425, 380 (2003).
  6. 6. W. Rippard, M. Pufall, S. Kaka, S. Russek, and T. Silva, Phys.Rev.Lett. 92, 272011 (2004).
  7. 7. A. Deac, A. Fukushima, H. Kubota, H. Maehara, Y. Suzuki, S. Yuasa, Y. Nagamine, K. Tsunekawa, D. Djayaprawira, and N. Watanabe, Nature Phys. 4, 803, (2008).
  8. 8. A. Nazarov, H. Olson, H. Cho, K. Nikolaev, Z. Gao, Stokes, S„ and B. Pant, Appl.Phys.Lett. 88, 162504 (2006).
  9. 9. D. Houssameddine, S. Florez, J. Katine, J. Michel, U. Ebels, D. Mauri, O. Ozatay, B. Delaet, B. Viala, L. Folks, B. Terris, and M. Cyrille, Appl.Phys. Lett. 93, 022505 (2008).
  10. 10. V. Pribiag, I. Krivorotov, G. Fuchs, P. Braganca, O. Ozatay, J. Sankey, D. Ralph, and R. Buhrman, Nature Phys. 3, 498 (2007).
  11. 11. R. Lehndorff, D.Burgler, S.Gliga, R.Hertel, P.Grunberg, C. Schneider, and Z. Celinski, Phys. Rev.B 80, 054412 (2009).
  12. 12. A.Dussaux, B.Georges, J.Grollier, V.Cros, A.Khvalkovskiy, A.Fukushima, M.Konoto, H.Kubota, K.Yakushiji, S.Yuasa, K. Zvezdin, K.Ando, and A. Fert, Nature Commun. 1, 8 (2010).
  13. 13. S. Tsunegi, K. Yakushiji, A. Fukushima, S. Yuasa, and H. Kubota, Appl.Phys. Lett. 109, 252402 (2016).
  14. 14. F. Mancoff, N. Rizzo, B. Engel, and S. Tehrani, Nature 437, 393 (2005).
  15. 15. Abreu F. Araujo, A. Belanovsky, P. Skirdkov, K. Zvezdin, A. Zvezdin, N. Locatelli, R. Lebrun, J. Grollier, V. Cros, De G. Loubens, and O. Klein, Phys.Rev.B 92, 045419 (2015).
  16. 16. N. Locatelli, A. Hamadeh, Abreu F. Araujo, A. Belanovsky, P. Skirdkov, R. Lebrun, V. Naletov, K. Zvezdin, M. Munoz, J. Grollier, O. Klein, V. Cros, and G. De Loubens, Sci.Rep. 5, 17039 (2015).
  17. 17. S. Kaka, M. Pufall, W. Rippard, T. Silva, S. Russek, and J. Katine, Nature 437, 389 (2005).
  18. 18. S. Erokhin and D. Berkov, Phys.Rev.B 89, 144421 (2014).
  19. 19. A.Ruotolo, V.Cros, B.Georges, A.Dussaux, J.Grollier, C.Deranlot, R.Guillemet, K.Bouzehouane, S. Fusil, and A. Fert, Nature Nanotech. 4, 528 (2009).
  20. 20. Q. Zhu, Q. Zheng, X. Liu, J. Wang, and Q. Liu, J.Appl.Phys. 117, 173907 (2015).
  21. 21. T. Kendziorczyk, S. Demokritov and T. Kuhn, Phys. Rev.B 90, 054414 (2014).
  22. 22. M. Kreissig, R. Lebrun, F. Protze, K. Merazzo-Jaimes, J. Hem, L. Vila, R. Ferreira, M. Cyrille, F. Ellinger, V. Cros, U. Ebels, and P. Bortolotti, AIP Adv. 7, 056653 (2017).
  23. 23. Y. Li, X. De Milly, Abreu F. Araujo, O. Klein, V. Cros, J. Grollier, and G. De Loubens, Phys.Rev. Lett. 118, 247202 (2017).
  24. 24. S. Tsunegi, T. Taniguchi, R. Lebrun, K. Yakushiji, V. Cros, J. Grollier, A. Fukushima, S. Yuasa, and H. Kubota, Sci.Rep. 8, 13475 (2018).
  25. 25. M. Riou, J. Torrejon, B. Garitaine, F. Abreu Araujo, P. Bortolotti, V. Cros, S. Tsunegi, K. Yakushiji, A. Fukushima, H. Kubota, S. Yuasa, D. Querlioz, M. Stiles, and J. Grollier, Phys.Rev.Appl. 12, 024049 (2019).
  26. 26. H. Singh, A. Bose, S. Bhuktare, A. Fukushima, K. Yakushiji, S. Yuasa, H. Kubota, and A. Tulapurkar, Phys.Rev.Appl. 10, 024001 (2018).
  27. 27. H. Singh, S. Bhuktare, A. Bose, A. Fukushima, K. Yakushiji, S. Yuasa, H. Kubota, and A. Tulapurkar, Phys.Rev.Appl. 11, 054028 (2019).
  28. 28. A. Slavin and V. Tiberkevich, IEEE Trans.Magn. 45, 1875 (2009).
  29. 29. A. Belanovsky, N. Locatelli, P. Skirdkov, F. Araujo, J. Grollier, K. Zvezdin, V. Cros, and A. Zvezdin, Phys.Rev.B 85, 100409 (2012).
  30. 30. H. Hong, H. Park, and M. Choi, Phys.Rev.E 72, 036217 (2005).
  31. 31. V. Flovik, F. Macl'a, and E. Wahlstrom, Sci.Rep. 6 32528 (2016).
  32. 32. H. Hata, M. Goto, A. Yamaguchi, T. Sato, Y. Nakatani, and Y. Nozaki, Phys.Rev.B 90, 104418 (2014).
  33. 33. S. Jain, H. Schultheiss, O.Heinonen, F. Fradin, J.Pearson, S. Bader, and V. Novosad, Phys.Rev.B 86, 214418 (2012).
  34. 34. J. Xiao, A. Zangwill, and M. Stiles, Phys.Rev.B 70, 172405 (2004).
  35. 35. A. Vansteenkiste, J. Leliaert, M. Dvornik, M. Helsen, F. Garcia-Sanchez, and B. Van Waeyenberge, AIP Adv. 4, 107133 (2014).
  36. 36. G. Abo, Y. Hong, J. Park, J. Lee, W. Lee, and B. Choi, IEEE Trans.Magn. 49, 4937 (2013).
  37. 37. M. Noske, H. Stoll, M. Fahnle, A. Gangwar, G. Woltersdorf, A. Slavin, M. Weigand, G. Dieterle, J. Forster, C. Back, and G. Schutz, Phys.Rev.Lett. 117, 037208 (2016).
  38. 38. D. Sheka, Y. Gaididei, and F. Mertens, Appl.Phys. Lett. 91, 082509 (2007).
  39. 39. K. Guslienko, K. Lee, and S. Kim, Phys.Rev.Lett. 100, 027203 (2008).
  40. 40. Y. Choi, S. Kim, K. Lee, and Y. Yu, Appl.Phys. Lett. 93, 182508 (2008).
  41. 41. V. L. Mironov, D.A. Tatarskiy, A.D. Efimov, and A.A. Fraerman, IEEE Trans.Magn. 57, 4300906 (2021).
  42. 42. M. Schneider, H. Hoffmann, and J. Zweck, Appl. Phys. Lett. 79, 3113 (2001).
QR
Translate

Индексирование

Scopus

Scopus

Scopus

Crossref

Scopus

Higher Attestation Commission

At the Ministry of Education and Science of the Russian Federation

Scopus

Scientific Electronic Library