Source: http://ao.iao.ru/en/content/vol.26-2013/iss.05
Timestamp: 2019-04-19 01:15:17+00:00

Document:
Marakasov D.A. Structure of the spatial-temporal spectrum of laser beam in the atmosphere under strong turbulence. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 345-349 [in Russian].
Marakasov D.A. Structure of the Spatiotemporal Spectrum of a Laser Beam in the Atmosphere under Strong Turbulence. // Atmospheric and Oceanic Optics, 2013, V. 26. No. 05. pp. 371–376.
Zemlyanov A.A., Bulygin A.D., Geints Yu.E. Energy light structures during femtosecond laser radiation filamentation in air. To the 50th anniversary of the first publication of light self-focusing. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 350-362 [in Russian].
Zemlyanov A.A., Bulygin A.D., and Geints Yu.E. Energy Light Structures during Femtosecond Laser Radiation Filamentation in Air. To the 50th Anniversary of the First Paper about Light Self-Focusing. // Atmospheric and Oceanic Optics, 2014, V. 27. No. 04. pp. 463–474.
Geints Yu.E., Grachev G.N., Zemlyanov A.A., Kabanov A.M., Pavlov A.A., Ponomarenko A.G., Tishchenko V.N. Termal self-action of high-power continuons pulse-periodic CO2 laser radiation in air. I. Numerical modeling of transfer along the atmospheric path. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 363-370 [in Russian].
Geints Yu.E., Grachev G.N., Zemlyanov A.A., Kabanov A.M., Pavlov A.A., Ponomarenko A.G., and Tishchenko V.N. Thermal Self-Action of High-Power Continuous and Pulse-Periodic CO2 Laser Radiation in Air: I. Numerical Simulation of Propagation along an Atmospheric Path. // Atmospheric and Oceanic Optics, 2014, V. 27. No. 02. pp. 107–114.
Banakh V.A., Falits A.V. Numerical simulation of combined beams propagation in the turbulent atmosphere in conditions of the thermal blooming. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 371-380 [in Russian].
Banakh V.A. and Falits A.V. Numerical Simulation of Propagation of Laser Beams Formed by Multielement Apertures in a Turbulent Atmosphere under Thermal Blooming. // Atmospheric and Oceanic Optics, 2013, V. 26. No. 06. pp. 455–465.
Kozintsev V.I., Ivanov S.E., Belov M.L., Gorodnichev V.A. Laser method of approximate measurement of instantaneous wind velocity and direction. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 381-384 [in Russian].
Kozintsev V.I., Ivanov S.E., Belov M.L., and Gorodnichev V.A. Laser Correlation Method with Adaptive Choice of Measuring Base for on-the-Fly Measurements of Wind Velocity. // Atmospheric and Oceanic Optics, 2012, V. 25. No. 04. pp. 263–268.
Konoshonkin A.V., Kustova N.V., Borovoy A.G. Peculiarities of the depolarization ratio in lidar signals for randomly oriented ice crystals of cirrus clouds. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 385-387 [in Russian].
Zhuravlev R.V., Ganshin A.V., Maksyutov Sh.Sh., Oshchepkov S.L., Khattatov B.V. Estimation of global fluxes of CO2 for 2009-2010 using ground-station and space-borne (GOSAT) observation data with empirical orthogonal functions. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 388-397 [in Russian].
Zhuravlev R.V., Ganshin A.V., Maksyutov Sh.Sh., Oshchepkov S.L., and Khattatov B.V. Estimation of Global CO2 Fluxes Using Ground-Based and Satellite (GOSAT) Observation Data with Empirical Orthogonal Functions. // Atmospheric and Oceanic Optics, 2013, V. 26. No. 06. pp. 507–516.
Chesnokova T.Yu. Spectroscopic factors, influencing the accuracy of the atmospheric radiative transfer simulation in the methane absorption bands in the near infrared region. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 398-407 [in Russian].
Chesnokova T.Yu. Spectroscopic Factors, Influencing the Accuracy of the Atmospheric Radiative Transfer Simulation in the Methane Absorption Bands in the Near Infrared Region. // Atmospheric and Oceanic Optics, 2013, V. 26. No. 05. pp. 417–426.
Andreev S.Yu., Bedareva T.V. Information-calculating system for studying spectral-angular characteristics of solar radiation. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 408-413 [in Russian].
Andreev S.Yu. and Bedareva T.V. Computer Information System for Studying Spectral and Angular Characteristics of Solar Radiation. // Atmospheric and Oceanic Optics, 2013, V. 26. No. 05. pp. 427–431.
Tartakovsky V.A., Kuskov A.I. Decomposition of the observed temperature and sunspot number sets. Features of the mean-values. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 414-421 [in Russian].
Seleguei T.S., Filonenko N.N., Shlychkov V.A., Lezhenin A.A., Lenkovskaya T.N. Formaldehyde pollution of the urban atmosphere as a function of certain meteorological factors. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 422-426 [in Russian].
Garanin S.G., Golubev A.I., Povyshev V.M., Starikov F.A., Shnyagin R.A. Investigation of possibility to improve the efficiency of adaptive system of "Luch" facility. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 427-433 [in Russian].
Ishmatov A.N., Elesin V.V., Trubnikov A.A., Ogorodnikov S.P. Generation of two-phase gas-droplet flows with preset characteristics. // Optika Atmosfery i Okeana. 2013. V. 26. No. 05. P. 434-437 [in Russian].
Ishmatov A.N., Elesin V.V., Trubnikov A.A., and Ogorodnikov S.P. Generation of Two-Phase Gas-Droplet Flows with Specified Characteristics. // Atmospheric and Oceanic Optics, 2013, V. 26. No. 06. pp. 556–558.

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