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Spin wave propagation in a strain-controlled magnonic crystal with a piezoelectric layer
Russian version
DOI: 10.61011/PSS.2023.07.56400.34H
Grachev A.A. 1, Sadovnikov A.V.1
1Saratov State University, Saratov, Russia
Email: stig133@gmail.com, sadovnikovav@gmail.com
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The mechanisms of spin wave propagation in a magnonic-crystalline structure, which is a width-modulated magnetic microwaveguide loaded with a piezoelectric layer with a system of counter-pin electrodes, are considered. Computational modelling based on the finite element method has been used to estimate the transformation of the internal magnetic field in a magnonic crystal under the action of elastic deformations. The shift of the frequency band of the Bragg resonance and the depth of regression of the spin-wave signal at the frequency of the Bragg resonance when an electric potential is applied to the electrodes are observed. It is shown that changing the polarity of the electric field can effectively control the characteristics of the propagating spin waves and the spatial distribution of the dynamic magnetization intensity in the multiferroic structure. Keywords: magnonics, straintronics, irregular structures. DOI: 10.61011/PSS.2023.07.56400.34H
  1. A. Barman, G. Gubbiotti, S. Ladak, A.O. Adeyeye, M. Krawczyk, J. Grafe, C. Adelmann, S. Cotofana, A. Naeemi, V.I. Vasyuchka, B. Hillebrands, S.A. Nikitov, H. Yu, D. Grundler, A.V. Sadovnikov, A.A. Grachev, S.E. Sheshukova, J.-Y. Duquesne, M. Marangolo, G. Csaba, W. Porod, V.E. Demidov, S. Urazhdin, S.O. Demokritov, E. Albisetti, D. Petti, R. Bertacco, H. Schultheiss, V.V. Kruglyak, V.D. Poimanov, S. Sahoo, J. Sinha, H. Yang, M. Munzenberg, T. Moriyama, S. Mizukami, P. Landeros, R.A. Gallardo, G. Carlotti, J.-V. Kim, R.L. Stamps, R.E. Camley, B. Rana, Y. Otani, W. Yu, T. Yu, G.E.W. Bauer, C. Back, G.S. Uhrig, O.V. Dobrovolskiy, B. Budinska, H. Qin, S. van Dijken, A.V. Chumak, A. Khitun, D.E. Nikonov, I.A. Young, B.W. Zingsem, M. Winklhofer. J. Phys.: Condens. Matter 33, 41, 413001 (2021)
  2. V.V. Kruglyak, S.O. Demokritov, D. Grundler. J. Phys. D 43, 26, 264001 (2010)
  3. Q. Wang, M. Kewenig, M. Schneider, R. Verba, F. Kohl, B. Heinz, M. Geilen, M. Mohseni, B. Lagel, F. Ciubotaru, C. Adelmann, C. Dubs, S.D. Cotofana, O.V. Dobrovolskiy, T. Bracher, P. Pirro, A.V. Chumak. Nature Electron. 3, 12, 765 (2020)
  4. S. Bader, S. Parkin. Annu. Rev. Condens. Matter Phys. 1, 71 (2010)
  5. A. Mahmoud, F. Ciubotaru, F. Vanderveken, A.V. Chumak, S. Hamdioui, C. Adelmann, S. Cotofana. J. Appl. Phys. 128, 16, 161101 (2020)
  6. A. Chumak, P. Kabos, M. Wu, C. Abert, C. Adelmann, A. Adeyeye, J. Angstrem kerman, F. Aliev, A. Anane, A. Awad, C.H. Back, A. Barman, G.E.W. Bauer, M. Becherer, E.N. Beginin, V.A.S.V. Bittencourt, Y.M. Blanter, P. Bortolotti, I. Boventer, D.A. Bozhko, S.A. Bunyaev, J.J. Carmiggelt, R.R. Cheenikundil, F. Ciubotaru, S. Cotofana, G. Csaba, O.V. Dobrovolskiy, C. Dubs, M. Elyasi, K.G. Fripp, H. Fulara, I.A. Golovchanskiy, C. Gonzalez-Ballestero, P. Graczyk, D. Grundler, P. Gruszecki, G. Gubbiotti, K. Guslienko, A. Haldar, S. Hamdioui, R. Hertel, B. Hillebrands, T. Hioki, A. Houshang, C.-M. Hu, H. Huebl, M. Huth, E. Iacocca, M.B. Jungfleisch, G.N. Kakazei, A. Khitun, R. Khymyn, T. Kikkawa, M. Klaui, O. Klein, J.W. K os, S. Knauer, S. Koraltan, M. Kostylev, M. Krawczyk, I.N. Krivorotov, V.V. Kruglyak, D. Lachance-Quirion, S. Ladak, R. Lebrun, Y. Li, M. Lindner, R. Macv edo, S. Mayr, G.A. Melkov, S. Mieszczak, Y. Nakamura, H.T. Nembach, A.A. Nikitin, S.A. Nikitov, V. Novosad, J.A. Otalora, Y. Otani, A. Papp, B. Pigeau, P. Pirro, W. Porod, F. Porrati, H. Qin, B. Rana, T. Reimann, F. Riente, O. Romero-Isart, A. Ross, A.V. Sadovnikov, A.R. Safin, E. Saitoh, G. Schmidt, H. Schultheiss, K. Schultheiss, A.A. Serga, S. Sharma, J.M. Shaw, D. Suess, O. Surzhenko, K. Szulc, T. Taniguchi, M. Urbanek, K. Usami, A.B. Ustinov, T. van der Sar, S. van Dijken, V.I. Vasyuchka, R. Verba, S. Viola Kusminskiy, Q. Wang, M. Weides, M. Weiler, S. Wintz, S.P. Wolski, X. Zhang. IEEE Trans. Magn. 58, 6, 0800172 (2022)
  7. D.D. Stancil, A. Prabhakar. Spin Waves: Theory and Applications. Springer Science \& Business Media (2009)
  8. A. Khitun, K.L. Wang. J. Appl. Phys. 110, 3, 034306 (2011)
  9. K. Das, F. Feringa, M. Middelkamp, B. Van Wees, I.J. Vera-Marun. Phys. Rev. B 101, 5, 054436 (2020)
  10. Q. Wang, A.V. Chumak, P. Pirro. Nature Commun. 12, 2636 (2021)
  11. S.A. Nikitov, A.R. Safin, D.V. Kalyabin, A.V. Sadovnikov, E.N. Beginin, M.V. Logunov, M.A. Morozova, S.A. Odintsov, S.A. Osokin, A.Yu. Sharaevskaya, Yu.P. Sharaevsky, A.I. Kirilyuk. Phys.-Usp. 63, 10, 945 (2020)
  12. A.A. Bukharaev, A.K. Zvezdin, A.P. Pyatakov, Y.K. Fetisov. Phys.-Usp. 61, 5, 1175 (2018)
  13. B. Rana, Y. Otani. Commun. Phys. 2, 90 (2019)
  14. A.V. Sadovnikov, A.A. Grachev, S.E. Sheshukova, Yu.P. Sharaevskii, A.A. Serdobintsev, D.M. Mitin, S.A. Nikitov. Phys. Rev. Lett. 120, 25, 257203 (2018)
  15. S. Bandyopadhyay, J. Atulasimha, A. Barman. Appl. Phys. Rev. 8, 4, 041323 (2021)
  16. A. Grachev, O. Matveev, M. Mruczkiewicz, M. Morozova, E. Beginin, S. Sheshukova, A. Sadovnikov. Appl. Phys. Lett. 118, 26, 262405 (2021)
  17. A.A. Grachev, A.V. Sadovnikov, S.A. Nikitov. Nanomater. 12, 9, 1520 (2022)
  18. S.A. Nikitov, P. Tailhades, C.S. Tsai. J. Magn. Magn. Mater. 236, 3, 320 (2001)
  19. Yu.V. Gulyaev, S.A. Nikitov, L.V. Zhivotovskii, A.A. Klimov, Ph. Tailhades, L. Presmanes, C. Bonningue, C.S. Tsai, S.L. Vysotskii, Yu.A. Filimonov. JETP Lett. 77, 10, 567 (2003)
  20. S.L. Vysotskii, S.A. Nikitov, Yu.A. Filimonov. JETP 101, 3, 547 (2005)
  21. A.B. Ustinov, B.A. Kalinikos. Technical Phys. Lett. 40, 7, 568 (2014)
  22. A.A. Nikitin, A.B. Ustinov, A.A. Semenov, A.V. Chumak, A.A. Serga, V.I. Vasyuchka, E. Lahderanta, B.A. Kalinikos, B. Hillebrands. Appl. Phys. Lett. 106, 10, 102405 (2015)
  23. P. Frey, A.A. Nikitin, D.A. Bozhko, S.A. Bunyaev, G.N. Kakazei, A.B. Ustinov, B.A. Kalinikos, F. Ciubotaru, A.V. Chumak, Q. Wang, V.S. Tiberkevich, B. Hillebrands, A.A. Serga. Commun. Phys. 3, 1, 17 (2020)
  24. P.P. Silvester, R.L. Ferrari. Finite Elements for Electrical Engineers. Cambridge University Press (1996). 541 p
  25. O.C. Zienkiewicz, R.L. Taylor, J.Z. Zhu. The Finite Element Method: Its Basis and Fundamentals. Elsevier (2005)
  26. A. Vansteenkiste, J. Leliaert, M. Dvornik, M. Helsen, F. Garcia-Sanchez, B. Van Waeyenberge. AIP Advances 4, 10, 107133 (2014).

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