Interaction of solitary electromagnetic waves in a 2D graphene superlattice

Capa

Citar

Texto integral

Acesso aberto Acesso aberto
Acesso é fechado Acesso está concedido
Acesso é fechado Acesso é pago ou somente para assinantes

Resumo

The mutual influence of solitons propagating along the axes of a two-dimensional graphene superlattice in mutually perpendicular directions has been studied. It is shown that due to the nonadditivity of the energy spectrum of the structure, the overlap region of solitons undergoes characteristic changes associated with the formation of pulses propagating along the fronts of interacting solitary waves.

Sobre autores

О. Babina

Volgograd State Socio-Pedagogical University

Email: ser-glazov@yandex.ru
Russia, 400005, Volgograd

S. Glazov

Volgograd State Socio-Pedagogical University; Volgograd State Medical University

Autor responsável pela correspondência
Email: ser-glazov@yandex.ru
Russia, 400005, Volgograd; Russia, 400131, Volgograd

I. Fedulov

Yugra State University

Email: ser-glazov@yandex.ru
Russia, 628012, Khanty-Mansiysk

Bibliografia

  1. Ratnikov P.V. // JETP Lett. 2009. V. 90. No. 6. P. 469.
  2. Ratnikov P.V. // Phys. Rev. B. 2020. V. 101. Art. No. 125301.
  3. Kryuchkov S.V., Popov C.A. // J. Nano-Electron. Phys. 2017. V. 9. No. 2. Art. No. 02013.
  4. Бадикова П.В., Глазов С.Ю., Сыродоев Г.А. // ФТП. 2019. Т. 53. № 7. С. 927; Badikova P.V., Glazov S.Yu., Syrodoev G.A. // Semiconductors. 2019. V. 53. No. 7. P. 911.
  5. Глазов С.Ю., Сыродоев Г.А. // Изв. РАН. Сер. физ. 2020. Т. 84. № 1. С. 128; Glazov S.Yu., Syrodoev G.A. // Bull. Russ. Acad. Sci. Phys. 2020. V. 84. No. 1. P. 98.
  6. Glazov S.Yu., Syrodoev G.A. // J. Phys. Conf. Ser. 2021. V. 1740. No. 1. Art. No. 012062.
  7. Бадикова П.В., Глазов С.Ю., Сыродоев Г.А. // Изв. РАН. Сер. физ. 2020. Т. 84. № 1. С. 38; Badikova P.V., Glazov S.Yu., Syrodoev G.A. // Bull. Russ. Acad. Sci. Phys. 2020. V. 84. No. 1. P. 30.
  8. Forsythe C., Zhou X., Watanabe K. et al. // Nature Nanotech. 2018. V. 13. P. 566.
  9. Zhang Y., Kim Y., Gilbert M.J. et al. // NPJ 2D Mater. Appl. 2018. V. 2. P. 31.
  10. Popa D., Sun Z., Torrisi F. et al. // Appl. Phys. Lett. 2010. V. 97. Art. No. 203106.
  11. Martin-Vergara F., Rus F., Villatoro F.R. // Nonlinear Syst. 2018. V. 2. P. 85.
  12. Kryuchkov S.V., Kukhar’ E.I. // Physica B. 2013. V. 408. P. 188.
  13. Smirnova D.A., Shadrivov I.V., Smirnov A.I. et al. // Laser Photon. Rev. 2014. V. 8. P. 291.
  14. Bludov Yu.V., Smirnova D.A., Kivshar Yu.S. et al. // Phys. Rev. B. 2015. V. 91. Art. No. 045424.
  15. Кухарь Е.И., Крючков С.В., Ионкина Е.С. // ФТП. 2018. Т. 52. № 6. С. 620; Kukhar E.I., Kryuchkov S.V., Ionkina E.S. // Semiconductors. 2018. V. 52. No. 6. P. 766.
  16. Крючков С.В., Капля Е.В. // ЖТФ. 2003. Т. 48. № 5. P. 53; Kryuchkov S.V., Kaplya E.V. // Tech. Phys. 2003. V. 48. No. 5. P. 576.
  17. Sun Z., Hasan T., Ferrari A.C. // Physica E. 2012. V. 44. P. 1082.
  18. Эпштейн Э.М. // ФТТ. 1977. Т. 19. № 11. С. 3456; Epshtein E.M. // Sov. Phys. Solid State. 1977. V. 19. No. 11. P. 2020.

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar
2.

Baixar (851KB)
Metadados
3.

Baixar (94KB)
Metadados

Declaração de direitos autorais © О.Ю. Бабина, С.Ю. Глазов, И.Н. Федулов, 2023