Probability of High Intensities of the Light Wave Propagating in a Turbulent Atmosphere

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We examine statistics of fluctuations of the laser beam intensity at its propagating in turbulent atmosphere. We are interested in relatively large propagating distances and the remote tail of the probability density function. The tail is determined by the stretched exponent, we find its index.

作者简介

I. Kolokolov

Landau Institute for Theoretical Physics, Russian Academy of Sciences;National Research University Higher School of Economics

Email: igor.kolokolov@gmail.com
Chernogolovka, Moscow region, 142432 Russia;Moscow, 101000 Russia

V. Lebedev

Landau Institute for Theoretical Physics, Russian Academy of Sciences;National Research University Higher School of Economics

编辑信件的主要联系方式.
Email: igor.kolokolov@gmail.com
Chernogolovka, Moscow region, 142432 Russia;Moscow, 101000 Russia

参考

  1. В.И. Татарский, Распространение волн в турбулентной атмосфере, Наука, М. (1967)
  2. V. I. Tatarskii, The Effects of the Turbulence Atmosphere on Wave Propagation, Israel Program for Scientific Translations, Jerusalem (1971].
  3. J. W. Goodman, Statistical Properties of Laser Speckle Pattern, in Laser Speckle and Related Phenomena, ed. by J. C. Dainty, Springer-Verlag, Berlin (1975).
  4. С. М. Рытов, Ю. А. Кравцов, В. И. Татарский, Введение в статистическую радиофизику, ч. II, Случайные поля, Физматлит, М. (1978)
  5. M. S. Rytov, Yu. A. Kravtsov, and V. I. Tatarskii, Principles of Statistical Radiophysics 4: Wave Propagation through Random Media, Springer-Verlag, Berlin (1989).
  6. Laser Beam Propagation in the Atmosphere, ed. by J. W. Strohbehn, Springer, N.Y. (1978).
  7. L. C. Andrews and R. L. Phillips, Laser Beam Propagation Through Random Media, Press Monograph Series, PM53 (1998).
  8. M. A. Vorontsov, G. W. Carhart, V. S. R. Gudimetla, T. Weyrauch, E. Stevenson, S. L. Lachinova, L. A. Beresnev, J. Liu, K. Rehder, and J. F. Riker, Proc. 2010 AMOS Conf. (2010).
  9. M. A. Vorontsov, V. R. Gudimetla, G. W. Carhart, T. Weyrauch, S. L. Lachinova, E. Polnau, J. R. L. A. Beresnev, J. Liu, and J. F. Riker, Proc. 2011 AMOS Conf. (2011).
  10. S. L. Lachinova and M. A. Vorontsov, J. Opt. 18, 025608 (2016).
  11. П. М. Лушников, Н. Владимирова, Письма в ЖЭТФ 108, 611 (2018)
  12. JETP Lett. 108, 571 (2018).
  13. T. Fahey, M. Islam, A. Gardi, and R. Sabatini, Atmosphere 12, 918 (2021).
  14. F. Evers and A. D. Mirlin, Rev. Mod. Phys. 80, 1355 (2008).
  15. В. И. Татарский, ЖЭТФ 56, 2106 (1969)
  16. Sov. Phys. JETP 29, 1133 (1969).
  17. В. Н. Заворотный, В. И. Кляцкин, В. И. Татарский, ЖЭТФ 73, 481 (1977)
  18. Sov. Phys. JETP 46, 252 (1977).
  19. I. Kolokolov, V. Lebedev, and P. Lushnikov, Phys. Rev. E 101, 042137 (2020).
  20. M. I. Charnotskii, Waves in Random Media 4, 243 (1994).
  21. С. Вайнберг, Квантовая теория поля, Физматлит, М. (2015), т. 2
  22. S. Weinberg, The quantum theory of elds, Cambridge University Press, Cambridge (2001), v. 2.
  23. П. М. Лушников, частное сообщение. Личная страница: https://math.unm.edu/plushnik/.

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