Kinetics and quantum trajectories of luminescence intensity of single-color centers in sodium fluoride crystals

Capa

Citar

Texto integral

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

Resumo

For the first time we studied the single-color centers in sodium fluoride crystals. The quantum intensity trajectories of three types of luminescence centers emitting in the visible region of the spectrum were observed; one of which is the F3+-center. The blinking of quantum trajectories is caused by transitions of the centers from the excited singlet state to the triplet state and, further, to the main singlet state. The average lifetime of the main triplet state for F3+-centers measured from observations of quantum trajectories of luminescence of single centers is 1.9 s, which coincides with the results of past measurements on the decay kinetics of triplet luminescence of ensemble of F3+-centers.

Texto integral

Acesso é fechado

Sobre autores

Е. Protasova

Irkutsk Branch of Institute of Laser Physics of the Siberian Branch of the Russian Academy of Sciences

Autor responsável pela correspondência
Email: eaprot@yandex.ru
Rússia, Irkutsk

A. Rakevich

Irkutsk Branch of Institute of Laser Physics of the Siberian Branch of the Russian Academy of Sciences

Email: eaprot@yandex.ru
Rússia, Irkutsk

Е. Martynovich

Irkutsk Branch of Institute of Laser Physics of the Siberian Branch of the Russian Academy of Sciences

Email: eaprot@yandex.ru
Rússia, Irkutsk

Bibliografia

  1. Зилов С.А., Войтович А.П., Бойченко С.В. и др. // Изв. РАН Сер. физ. 2016. Т. 80. № 1. С. 89; Zilov S.A., Voitovich A.P., Bojchenko S.V. et al. // Bull. Russ. Acad. Sci. Phys. 2016. V. 80. No. 1. P. 81.
  2. Мартынович Е.Ф. // Письма в ЖЭТФ. 1989. Т. 49. № 12. С. 655; Martynovich E.F. // JETP Lett. 1989. V. 49. No. С. 752.
  3. Courrol L.C., Samad R.E., Gomes L. et al. // Opt. Express. 2004. V. 12. No. 2. Р. 288.
  4. Kurobori T., Sakai T., Aoshima S. // Phys. Stat. Sol. A. 2007. V. 204. No. 3. P. 699.
  5. Дресвянский В.П., Бойченко С.В., Зилов С.А. и др. // Изв. РАН. Сер. физ. 2016. Т. 80. № 1. С. 97; Dresvyanskiy V.P., Bojchenko S.V., Zilov S.A. et al. // Bull. Russ. Acad. Sci. Phys. 2016. V. 80. No. 1. P. 89.
  6. Мартынович Е.Ф. Центры окраски в лазерных кристаллах. Иркутск: Изд. Иркутского ун-та, 2004. 227 с.
  7. Martynovich E.F., Dresvyansky V.P., Lazareva N.L. et al. // Advanced Photonics 2017. OSA Technical Digest. Optica Publishing Group, 2017. Art. No. W2. Р. 6.
  8. Maurer P.C., Maze J.R., Stanwix P.L. et al. // Nature Phys. 2010. V. 6. No. 11. P. 912.
  9. Мартынович Е.Ф., Чернова Е.О., Дресвянский В.П. Способ записи полноцветных люминесцентных изображений в объеме оптического носителя. Патент РФ № 2653575, кл. C03B33/09, B44F1/06. 2018.
  10. Piccinini M., Nichelatti E., Ampollini A. et al. // EPL. 2017. V. 117. No. 3. Art. No. 37004.
  11. Мартынович Е.Ф. Нелинейный фотографический люминесцентный материал. Патент РФ № 2758567, кл. G03C1/725. 2021.
  12. Протасова Е.А., Ракевич А.Л., Мартынович Е.Ф. // Изв. РАН. Сер. физ. 2022. Т. 86. № 10. С. 1424; Protasova E.A., Rakevich A.L., Martynovich E.F. // Bull. Russ. Acad. Sci. Phys. 2022. V. 86. No. 10. P. 1179.
  13. Цуканов А.В. // Микроэлектрон. 2012. Т. 41. № 2. С. 104; Tsukanov A.V. // Russ. Microelectron. 2012. V. 41. No. 2. P. 91.
  14. Collins A.T., Thomaz M.F., Jorge M.I.B. // J. Physics C. 1983. V. 16. No. 11. P. 2177.
  15. Müller A., Neumann R., Schwartz K. et al. // Appl. Phys. A. 1998. V. 66 (Suppl. 1). P. 1147.
  16. Мартынович Е.Ф., Зилов С.А., Дресвянский В.П. // Опт. и спектроск. 2023. Т. 131. № 5. С. 667; Martynovich E.F., Zilov S.A., Dresvyanskiy V.P. // Opt. Spectrosc. 2023. V. 131. No. 5. P. 625.
  17. Boichenko S.V., Koenig K., Zilov S.A. et al. // J. Phys. Conf. Ser. 2014. V. 552. Art. No. 012048.
  18. Anipko A.V., Ivanov V. Yu., Juravleva E. Yu. et al. // Proc. 13th RPC (Tomsk, 2006). P. 159.
  19. Elsässer K., Seidel H. // Phys. Stat. Sol. B. 1971. V. 43. No. 1. P. 301.
  20. Shulgin B.V., Ivanov V. Yu., Tcherepanov A.N. et al. // Phys. Stat. Sol. C. 2007. V. 4. No. 3. P. 1126.
  21. Nahum J. // Phys. Rev. 1968. V. 174. No. 3. P. 1000.
  22. Andrews R.A., Kim Y.W. // Phys. Rev. 1968. V. 170. No. 3. P. 793.
  23. Аржанов А.И., Савостьянов А.О., Магарян К.А. и др. // Фотоника. 2021. Т. 15. № 8. С. 622; Arzhanov A.I., Savostianov A.O., Magaryan K.A. et al. // Photonics Russ. 2021. V. 15. No. 8. P. 622.

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar
2. Fig. 1. Spectra of color centers in a NaF crystal.

Baixar (192KB)
Metadados
3. Fig. 2. Quantum trajectories of the luminescence intensity of single: (a) F3+ center, (b) center of the first type, (c) center of the second type.

Baixar (681KB)
Metadados
4. Fig. 3. Kinetics of luminescence of (a) F3+ center, (b) center of the first type, (c) center of the second type in a sodium fluoride crystal.

Baixar (624KB)
Metadados
5. Fig. 4. Scanned photograph of color centers in NaF: (a) before burning and (b) after 15 minutes of burning, image size 80×80 µm.

Baixar (232KB)
Metadados

Declaração de direitos autorais © Russian Academy of Sciences, 2024