Formation of quasi unipolar pulses in nonequilibrium magnetized plasma channels

Capa

Citar

Texto integral

Acesso aberto Acesso aberto
Acesso é fechado Acesso está concedido
Acesso é fechado Somente assinantes

Resumo

The possibility of controlling both the spectral and polarization properties of THz pulses propagating in strongly nonequilibrium extended magnetized plasma channels formed by intense UV femtosecond laser pulses in nitrogen (air) is analyzed. The formation of quasiunipolar pulses with a nonzero electric area and a specific state of polarization is discussed. The transformation of such pulses upon leaving the region of a static magnetic field is analyzed.

Sobre autores

A. Bogatskaya

Lomonosov Moscow State University;Lebedev Physical Institute of the Russian Academy of Sciences

Email: alexander.m.popov@gmail.com

Faculty of Physics

Rússia, Moscow; Moscow

E. Volkova

Lomonosov Moscow State University, Skobeltsyn Institute of Nuclear Physics

Email: alexander.m.popov@gmail.com
Rússia, Moscow

A. Popov

Lomonosov Moscow State University; Lebedev Physical Institute of the Russian Academy of Sciences

Autor responsável pela correspondência
Email: alexander.m.popov@gmail.com

Faculty of Physics

Rússia, Moscow; Moscow

Bibliografia

  1. Tonouchi M. // Nature Photon. 2007. V. 1. P. 105.
  2. Kampfrath T., Tanaka K., Nelson K. // Nature Photon. 2013. V. 7. P. 680.
  3. Jepsen P., Cooke D., Koch M. // Laser Photon. Rev. 2011. V. 5. P. 124.
  4. Yang X., Zhao X., Yang K. et al. // Trends Biotechnol. 2016. V. 34. No. 10. P. 810.
  5. Hoshina H., Morisawa Y., Sato H. et al. // Phys. Chem. Chem. Phys. 2011. V. 13. P. 9173.
  6. Katletz S., Pfleger M., Pühringer H. et al. // Opt. Express. 2012. V. 20. P. 23025.
  7. Розанов Н.Н. // Опт. и спектроск. 2009. Т. 107. С. 761; Rosanov N.N. // Opt. Spectrosc. 2009. V. 107. No. 5. P. 721.
  8. Arkhipov R., Arkhipov M., Pakhomov A. et al. // Laser Phys. Lett. 2022. V. 19. Art. No. 043001.
  9. Chai X., Ropagnol X., Raeis-Zadeh S.-M. et al. // Phys. Rev. Lett. 2018. V. 121. Art. No. 143901.
  10. Sychugin S., Novokovskaya A., Bakunov M. // Phys. Rev. A. 2022. V. 105. Art. No. 053528.
  11. Arkhipov R., Pakhomov A., Arkhipov M. et al. // Opt. Lett. 2019. V. 44. P. 1202.
  12. Pakhomov A., Arkhipov M., Rosanov N., Arkhipov R. // Phys. Rev. A. 2022. V. 105. Art. No. 043103.
  13. Бессонов Е.Г. // ЖЭТФ 1981. Т. 80. С. 852; Bessonov E.G. // Sov. Phys. JETP 1981. V. 80. P. 433.
  14. Pakhomov A.V., Arkhipov R.M., Arkhipov M.V. et al. // Sci. Reports. 2019. V. 9. P. 7444.
  15. Arkhipov M.V., Arkhipov R.M., Pakhomov A.V. et al. // Opt. Lett. 2017. V. 42. P. 2189.
  16. Bakunov M.I., Maslov A.V., Tsarev M.V. // Phys. Rev. A 2017. V. 95. Art. No. 063817.
  17. Bogatskaya A.V., Volkova E.A., Popov A.M. // Plasma Sources Sci. Technol. 2022. V. 31. No. 9. Art. No. 095009.
  18. Tsarev M.V., Bakunov M.I. // Opt. Express. 2019. V. 27. P. 5154.
  19. Kozlov V.V., Rosanov N.N., Angelis C.D., Wabnitz S. // Phys. Rev. A. 2011. V. 84. Art. No. 023818.
  20. Архипов Р.М., Архипов М.В., Розанов Н.Н. // Квант. электрон. 2020. Т. 50. № 9. С. 801; Arkhipov R.M., Arkhipov M.V., Rosanov N.N. // Quant. Electron. 2020. V. 50. No. 9. P. 801.
  21. Shou Y., Hu R., Gong Z., Yu J. et al. // New J. Physics. 2021. V. 23. Art. No. 053003.
  22. Архипов М.В., Архипов Р.М., Розанов Н.Н. // Опт. и спектроск. 2021. Т. 129. № 3. С. 1173; Arkhipov M.V., Arkhipov R.M., Rosanov N.N. // Opt. Spectrosc. 2021. V. 129. No. 3. P. 1193.
  23. Reimann K. // Rep. Progr. Phys. 2007. V. 70. P. 1597.
  24. Bogatskaya A.V., Volkova E.A., Popov A.M. // Photonics. 2023. V. 10. P. 113.
  25. Bogatskaya A.V., Gnezdovskaia N.E., Popov A.M. // Phys. Rev. E. 2020. V. 102. Art. No. 043202.
  26. Богацкая А.В., Попов А.М. // Письма в ЖЭТФ 2013. Т. 97. № 7. С. 388; Bogatskaya A.V., Popov A.M. // JETP Lett. 2013. V. 97. No. 7. P. 388.
  27. Bogatskaya A.V., Volkova E.A., Popov A.M. // J. Physics D. 2014. V. 47. Art. No. 185202.
  28. Bogatskaya A.V., Volkova E.A., Popov A.M. // Phys. Rev. E. 2022. V. 105. Art. No. 055203.
  29. Bogatskaya A.V., Volkova E.A., Popov A.M. // Phys. Rev. E. 2021. V. 104. Art. No. 025202.
  30. Balčiūnas T., Lorenc D., Ivanov M. et al. // Opt. Exp. 2015. V. 23. P. 15278.
  31. Seifert T., Jaiswal S., Sajadi M. et al. // Appl. Phys. Lett. 2017. V. 110. Art. No. 252402.
  32. Zhang D., Bai Y., Zeng Y. et al. // IEEE Photon. J. 2022. V. 14. No. 1. Art. No. 5910605.
  33. Архипов Р.М., Архипов М.В., Пахомов А.В. и др. // Письма в ЖЭТФ 2023. Т. 117. № 1. С. 10; Arkhipov R.M., Arkhipov M.V., Pakhomov A.V. et al. // JETP Lett. 2023. V. 117. No. 1. P. 8.

Declaração de direitos autorais © Russian Academy of Sciences, 2024

Este site utiliza cookies

Ao continuar usando nosso site, você concorda com o procedimento de cookies que mantêm o site funcionando normalmente.

Informação sobre cookies