Klyatskin V.I. Lectures on Dynamics of Stochastic Systems
Подождите немного. Документ загружается.
396 References
[65] Balkovsky, E., G. Falkovich and A. Fouxon, 2000, Clustering of inertial particles in tur-
bulent flows, http://arxiv.org/abs/chao-dyn/9912027.
[66] Balkovsky, E., G. Falkovich and A. Fouxon, 2001, Intermittent Distribution of Inertial
Particles in Turbulent Flows, Phys. Rev. Letters 86(13), 2790–2793.
[67] Guzev, M.A., V.I. Klyatskin and G.V. Popov, 1992, Phase fluctuations and localiza-
tion length in layered randomly inhomogeneous media, Waves in Random Media 2(2),
117–123.
[68] Klyatskin, V.I., 2004, Propagation of electromagnetic waves in randomly inhomogeneous
media as a problem of statistical mathematical physics, Physics–Uspekhi 47(2), 169–186.
[69] Klyatskin, V.I. and I.G. Yakushkin, 1997, Statistical theory of the propagation of optical
radiation in turbulent media, JETP 84(6), 1114–1121.
[70] Obukhov A.M., 1953, On the effect of weak atmospheric inhomogeneities on propagation
of sound and light, Izv. AN SSSR, Geofizika, No. 2, P. 155–165.
[71] Obukhov A.M., 1988, Turbulens and Atmospheric Dynamics, Gidrometeoizdat, Leningrad
[in Russian].
[72] Gracheva, M.E. and A.S. Gurvich, 1965, On strong intensity fluctuation of light propagat-
ing in atmospheric layer near the Earth, Radiophys. Quantum Electron. 8(4), 511–515.
[73] Gracheva, M.E., A.S. Gurvich, S.O. Lomadze, V.V. Pokasov and A.S. Khrupin, 1974,
Probability distribution of ‘strong’ fluctuations of light intensity in the atmosphere, Radio-
phys. Quantum Electron. 17(1), 83–87.
[74] Fradkin, E.S., 1965, Method of Green’s Functions in the Theory of Quantized Fields and
Quantum Statistics, Trudy FIAN, 29(7), 65.
[75] Fradkin, E.S., 1966, Applications of functional methods in a quantum field theory and
quantum statistics, II, Nucl. Phys. 11, 588.
[76] Klyatskin, V.I. and V.I. Tatarskii, 1970, The parabolic equation approximation for pro-
pagation of waves in a random medium with random inhomogeneities, Sov. Phys. JETP
31(2), 335–339.
[77] Zavorotnyi, V.U., V.I. Klyatskin and V.I. Tatarskii, 1977, Strong fluctuations of the inten-
sity of electromagnetic waves in randomly inhomogeneous media, Sov. Phys. JETP 46(2),
252–260.
[78] Dashen R., 1984, Distribution of intensity in a multiply scattering medium, Opt. Lett. 9,
110–112.
[79] Churnside, J.H. and S.F. Clifford, 1987, Log-normal Rician probability–density function
of optical scintillations in the turbulent atmosphere, JOSA A4(10), 1923–1930.
[80] Gurvich, A.S., M.A. Kallistratova and F.E. Martvel, 1977, An investigation of strong fluc-
tuations of light intensity in a turbulent medium at a small wave parameter, Radiophys.
Quantum Electron. 20(7), 705–714.
[81] Kravtsov, Yu.A., 1992, Propagation of electromagnetic waves through a turbulent atmos-
phere, Rep. Prog. Phys. 55, 39–112.
[82] Flatt
´
e, S.M., G.-Y. Wang and J. Martin, 1993, Irradiance variance of optical waves through
atmospheric turbulence by numerical simulation and comparison with experiment, JOSA
A10, 2363–2370.
[83] Flatt
´
e, S.M., C. Bracher and G.Y. Wang, 1994, Probability–density functions of irradi-
ance for waves in atmospheric turbulence calculated by numerical simulation, JOSA A11,
2080–2092.
[84] Martin, J.M. and S.M. Flatt
´
e, 1988, Intensity images and statistics from numerical simula-
tion of wave propagation in 3-D random media, Appl. Opt. 27(11), 2111–2126.