Content of issue 11, volume 29, 2016

  1. Antoshkin L.V., Botygina N.N., Bol'basova L.A., Emaleev O.N., Konyaev P.A., Kopylov E.A., Kovadlo P.G., Kolobov D.Yu., Kudryashov A.V., Lavrinov V.V., Lavrinova L.N., Lukin V.P., Chuprakov S.A., Selin A.A., Shikhovtsev A.Yu. Adaptive optics system for solar telescope operating under strong atmospheric turbulence. P. 895–904
    Bibliographic reference:
    Antoshkin L.V., Botygina N.N., Bol'basova L.A., Emaleev O.N., Konyaev P.A., Kopylov E.A., Kovadlo P.G., Kolobov D.Yu., Kudryashov A.V., Lavrinov V.V., Lavrinova L.N., Lukin V.P., Chuprakov S.A., Selin A.A., Shikhovtsev A.Yu. Adaptive optics system for solar telescope operating under strong atmospheric turbulence. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 895–904 [in Russian].
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  2. Nosov V.V., Lukin V.P., Nosov E.V., Torgaev A.V. Structure of air turbulent motion inside Primary mirror shaft at Siberian lidar station of IAO SB RAS. Experiment and simulation. P. 905–910
    Bibliographic reference:
    Nosov V.V., Lukin V.P., Nosov E.V., Torgaev A.V. Structure of air turbulent motion inside Primary mirror shaft at Siberian lidar station of IAO SB RAS. Experiment and simulation. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 905–910 [in Russian].
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  3. Аntipov O.L., Kanev F.Yu., Lukin V.P., Makenova N.A. Dependence of the effectiveness of multichannel radiation turbulent distortion compensation on the method of phase control. Increase of the effectiveness under control of amplitude. P. 911–917
    Bibliographic reference:
    Аntipov O.L., Kanev F.Yu., Lukin V.P., Makenova N.A. Dependence of the effectiveness of multichannel radiation turbulent distortion compensation on the method of phase control. Increase of the effectiveness under control of amplitude. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 911–917 [in Russian].
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  4. Bol'basova L.A., Lukin V.P. Analytical models of vertical profile of the structure parameter of atmospheric refractive index for adaptive optics. P. 918–925
    Bibliographic reference:
    Bol'basova L.A., Lukin V.P. Analytical models of vertical profile of the structure parameter of atmospheric refractive index for adaptive optics. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 918–925 [in Russian].
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  5. Antoshkin L.V., Lavrinov V.V., Lavrinova L.N. Numerical analysis of the evolution of phase fluctuations of a light field at the entrance aperture of an adaptive optics system. P. 926–933
    Bibliographic reference:
    Antoshkin L.V., Lavrinov V.V., Lavrinova L.N. Numerical analysis of the evolution of phase fluctuations of a light field at the entrance aperture of an adaptive optics system. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 926–933 [in Russian].
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  6. Bogachev V.A., Garanin S.G., Starikov F.A., Shnyagin R.A. Numerical simulation of sensorless adaptive phase correction of regular, vertical, and incoherent multimode laser beams. P. 934–941
    Bibliographic reference:
    Bogachev V.A., Garanin S.G., Starikov F.A., Shnyagin R.A. Numerical simulation of sensorless adaptive phase correction of regular, vertical, and incoherent multimode laser beams. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 934–941 [in Russian].
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  7. Venediktov V.Yu., Venediktov D.V., Gorelaya A.V., Dmitrieva A.D., Dmitriev D.I., Kudryashov A.V., Lovchy I.L., Tsvеtkоv A.D., Shalymov E.V., Sheldakova Yu.V., Shubеnkоva E.V. The study of propagation and adaptive optics correction of a laser beam along an atmospheric path protected from external influence. P. 942–948
    Bibliographic reference:
    Venediktov V.Yu., Venediktov D.V., Gorelaya A.V., Dmitrieva A.D., Dmitriev D.I., Kudryashov A.V., Lovchy I.L., Tsvеtkоv A.D., Shalymov E.V., Sheldakova Yu.V., Shubеnkоva E.V. The study of propagation and adaptive optics correction of a laser beam along an atmospheric path protected from external influence. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 942–948 [in Russian].
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  8. Yagnyatinskiу D.A., Lyakhov D.M., Borshevnikov A.N., Fedoseуev V.N. The control algorithm for adaptive optics system based on the focal spot radius minimizing. P. 949–953
    Bibliographic reference:
    Yagnyatinskiу D.A., Lyakhov D.M., Borshevnikov A.N., Fedoseуev V.N. The control algorithm for adaptive optics system based on the focal spot radius minimizing. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 949–953 [in Russian].
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  9. Dzеdolik I.V., Pеreskokov V.S. Topology of plazmon-polariton vortices on adaptive mirror. P. 954–959
    Bibliographic reference:
    Dzеdolik I.V., Pеreskokov V.S. Topology of plazmon-polariton vortices on adaptive mirror. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 954–959 [in Russian].
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  10. Kabanov D.M., Zhamsueva G.S., Zayakhanov A.S., Kornienko G.I., Naguslaev S.A., Pavlov A.N., Panchenko M.V., Pestunov D.A., Sakerin S.M., Shmirko K.A. About results of two-site measurements of the aerosol optical depth of the atmosphere in certain regions of Russia. P. 960–971
    Bibliographic reference:
    Kabanov D.M., Zhamsueva G.S., Zayakhanov A.S., Kornienko G.I., Naguslaev S.A., Pavlov A.N., Panchenko M.V., Pestunov D.A., Sakerin S.M., Shmirko K.A. About results of two-site measurements of the aerosol optical depth of the atmosphere in certain regions of Russia. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 960–971 [in Russian].
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  11. Tartakovsky V.A. Influence of solar activity on the temperature in the surface layer. P. 972–979
    Bibliographic reference:
    Tartakovsky V.A. Influence of solar activity on the temperature in the surface layer. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 972–979 [in Russian].
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  12. Chulichkov A.I., Andreev M.S., Golitsyn G.S., Elansky N.F., Medvedev A.P., Postylyakov O.V. On determination of height of cloud base using ground-based stereophotography. P. 980–986
    Bibliographic reference:
    Chulichkov A.I., Andreev M.S., Golitsyn G.S., Elansky N.F., Medvedev A.P., Postylyakov O.V. On determination of height of cloud base using ground-based stereophotography. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 980–986 [in Russian].
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  13. Vorob'ev V.V. The applicability of asymptotic formulas for recovery of "optical" turbulence parameters from data of the lidar sensing. II. Results of the numerical calculations. P. 987–993
    Bibliographic reference:
    Vorob'ev V.V. The applicability of asymptotic formulas for recovery of "optical" turbulence parameters from data of the lidar sensing. II. Results of the numerical calculations. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 987–993 [in Russian].
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  14. Kurakov S.A., Zuev V.V. Unmanned aerial vehicle for measuring vertical profiles of the meteorological parameters in the atmospheric boundary layer. P. 994–999
    Bibliographic reference:
    Kurakov S.A., Zuev V.V. Unmanned aerial vehicle for measuring vertical profiles of the meteorological parameters in the atmospheric boundary layer. // Optika Atmosfery i Okeana. 2016. V. 29. No. 11. P. 994–999 [in Russian].
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  15. Information. P. 1000