Content of issue 09, volume 31, 2018

  1. Lukin I.P. Coherence of pseudo-Bessel beam in a turbulent atmosphere. P. 685–697
    Bibliographic reference:
    Lukin I.P. Coherence of pseudo-Bessel beam in a turbulent atmosphere. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 685–697 [in Russian].
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    Lukin I.P. Coherence of Pseudo-Bessel Beams in a Turbulent Atmosphere // Atmospheric and Oceanic Optics, 2018, V. 31. No. 06. pp. 590–603.
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  2. Odintsov S.L., Gladkikh V.A., Kamardin A.P., Mamyshev V.P., Nevzorova I.V. Assessment of the influence of turbulence and regular refraction on laser beam characteristics in the atmospheric boundary layer. Part 1. Coherence length and turbulent broadening of a laser beam. P. 698–705
    Bibliographic reference:
    Odintsov S.L., Gladkikh V.A., Kamardin A.P., Mamyshev V.P., Nevzorova I.V. Assessment of the influence of turbulence and regular refraction on laser beam characteristics in the atmospheric boundary layer. Part 1. Coherence length and turbulent broadening of a laser beam. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 698–705 [in Russian].
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    Odintsov S.L., Gladkikh V.A., Kamardin A.P., Mamyshev V.P. and Nevzorova I.V. Estimation of the Turbulence and Regular Refraction Effects on Laser Beam Parameters in the Atmospheric Boundary Layer: Part 1, Coherence Length and Turbulent Broadening // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 19–25.
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  3. Geints Yu.E., Panina E.K., Zemlyanov A.A. Comparative analysis of key parameters of photonic nanojets from axisymmetric nonspherical microparticles. P. 706–710
    Bibliographic reference:
    Geints Yu.E., Panina E.K., Zemlyanov A.A. Comparative analysis of key parameters of photonic nanojets from axisymmetric nonspherical microparticles. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 706–710 [in Russian].
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    Geints Yu.E., Panina E.K. and Zemlyanov A.A. Comparative Analysis of Key Parameters of Photonic Nanojets from Axisymmetric Nonspherical Microparticles // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 41–44.
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  4. Zemlyanov A.A., Bulygin A.D. The volume fraction of the plasma filling of the region of multiple filaments formed in the air by femtosecond radiation at 800 and 248 nm. P. 711–715
    Bibliographic reference:
    Zemlyanov A.A., Bulygin A.D. The volume fraction of the plasma filling of the region of multiple filaments formed in the air by femtosecond radiation at 800 and 248 nm. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 711–715 [in Russian].
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  5. Smalikho I.N., Banakh V.A., Falits A.V. Lidar investigation of wind turbulence in the presence of low-level jet in the atmosphere. P. 716–724
    Bibliographic reference:
    Smalikho I.N., Banakh V.A., Falits A.V. Lidar investigation of wind turbulence in the presence of low-level jet in the atmosphere. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 716–724 [in Russian].
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  6. Stephan A., Wildmann N., Smalikho I.N. Effectiveness of the MFAS method for determination of wind velocity from Windcube 200s lidar measurements. P. 725–733
    Bibliographic reference:
    Stephan A., Wildmann N., Smalikho I.N. Effectiveness of the MFAS method for determination of wind velocity from Windcube 200s lidar measurements. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 725–733 [in Russian].
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  7. Banakh V.A., Falits A.V., Sukharev A.A., Krasnenko N.P., Rakov A.S. Variations in the temperature regime of the atmospheric boundary layer in regions with different orography. P. 734–742
    Bibliographic reference:
    Banakh V.A., Falits A.V., Sukharev A.A., Krasnenko N.P., Rakov A.S. Variations in the temperature regime of the atmospheric boundary layer in regions with different orography. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 734–742 [in Russian].
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  8. Chesnokova T.Yu., Firsov K.M., Razmolov A.A. Contribution of the water vapor continuum absorption to radiative balance of the atmosphere with cirrus clouds. P. 743–751
    Bibliographic reference:
    Chesnokova T.Yu., Firsov K.M., Razmolov A.A. Contribution of the water vapor continuum absorption to radiative balance of the atmosphere with cirrus clouds. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 743–751 [in Russian].
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    Chesnokova T.Yu., Firsov K.M. and Razmolov A.A. Contribution of the Water Vapor Continuum Absorption to the Radiation Balance of the Atmosphere with Cirrus Clouds // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 64–71.
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  9. Antokhina O.Yu., Аntokhin P.N., Arshinova V.G., Arshinov M.Yu., Belan B.D., Belan S.B., Davydov D.K., Dudorova N.V., Ivlev G.A., Kozlov A.V., Rasskazchikova T.M., Savkin D.E., Simonenkov D.V., Sklyadneva T.K., Tolmachev G.N., Fofonov A.V. Study of the composition of air masses of different types. P. 752–759
    Bibliographic reference:
    Antokhina O.Yu., Аntokhin P.N., Arshinova V.G., Arshinov M.Yu., Belan B.D., Belan S.B., Davydov D.K., Dudorova N.V., Ivlev G.A., Kozlov A.V., Rasskazchikova T.M., Savkin D.E., Simonenkov D.V., Sklyadneva T.K., Tolmachev G.N., Fofonov A.V. Study of the composition of air masses of different types. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 752–759 [in Russian].
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    Antokhina O.Yu., Antokhin P.N., Arshinova V.G., Arshinov M.Yu., Belan B.D.,  .B., Davydov D.K., Dudorova N.V., Ivlev G.A., Kozlov A.V., Rasskazchikova T.M., Savkin D.E., Simonenkov D.V., Sklyadneva T.K., Tolmachev G.N. and Fofonov A.V. Study of Air Composition in Different Air Masses // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 72–79.
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  10. Shchelkanov N.N. Daily variation in the radiation extinction coefficient due to midges and its dependence on meteorological parameters of the atmosphere under background conditions of summer of Western Siberia. P. 760–763
    Bibliographic reference:
    Shchelkanov N.N. Daily variation in the radiation extinction coefficient due to midges and its dependence on meteorological parameters of the atmosphere under background conditions of summer of Western Siberia. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 760–763 [in Russian].
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    Shchelkanov N.N. Daily Variation in the Radiation Extinction Coefficient due to Midges and Its Dependence on Meteorological Parameters of the Atmosphere in Background Summer Conditions of Western Siberia // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 80–84.
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  11. Dolgii S.I., Nevzorov A.A., Nevzorov A.V., Makeev A.P., RomanovskiI O.A., Kharchenko O.V.
    Lidar complex for measurement of vertical ozone distribution in the upper troposphere – stratosphere
    . P. 764–770
    Bibliographic reference:
    Dolgii S.I., Nevzorov A.A., Nevzorov A.V., Makeev A.P., RomanovskiI O.A., Kharchenko O.V.
    Lidar complex for measurement of vertical ozone distribution in the upper troposphere – stratosphere. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 764–770 [in Russian].
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    Dolgii S.I., Nevzorov A.A., Nevzorov A.V., Makeev A.P., Romanovskii O.A. and Kharchenko O.V. Lidar Complex for Measurement of Vertical Ozone Distribution in the Upper Troposphere–Stratosphere // Atmospheric and Oceanic Optics, 2018, V. 31. No. 06. pp. 702–708.
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  12. Belov V.V., Gridnev Yu.V., Kapustin V.V., Kozlov V.S., Kudryavtsev A.N., Kuryachy M.I., Movchan A.K., Rakhimov R.F., Panchenko M.V., Shmargunov V.P. Experimental estimation of frequency-contrast characteristics of active pulsed TV OES under conditions of enhanced aerosol medium turbidity. P. 771–775
    Bibliographic reference:
    Belov V.V., Gridnev Yu.V., Kapustin V.V., Kozlov V.S., Kudryavtsev A.N., Kuryachy M.I., Movchan A.K., Rakhimov R.F., Panchenko M.V., Shmargunov V.P. Experimental estimation of frequency-contrast characteristics of active pulsed TV OES under conditions of enhanced aerosol medium turbidity. // Optika Atmosfery i Okeana. 2018. V. 31. No. 09. P. 771–775 [in Russian].
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    Belov V.V., Gridnev Yu.V., Kapustin V.V., Kozlov V.S., Kudryavtsev A.N., Kuryachii M.I., Movchan A.K., Rakhimov R.F., Panchenko M.V. and Shmargunov V.P. Experimental Estimation of Frequency-Contrast Characteristics of Active Pulsed Television Systems under Conditions of Enhanced Turbidity of Aerosol Media // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 103–108.
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