Content of issue 10, volume 32, 2019

1. Bogdanova Yu. V., Klimeshina T. E., Rodimova O. B. The dimer absorption within the water vapor bands in the IR region. P. 801–807
Bibliographic reference:
Bogdanova Yu. V., Klimeshina T. E., Rodimova O. B. The dimer absorption within the water vapor bands in the IR region. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 801–807. DOI: 10.15372/AOO20191001 [in Russian].
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Bogdanova Yu.V., Klimeshina T.E. and Rodimova O.B. Dimer Absorption within Water Vapor Bands in the IR Region // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 134–140.
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2. Smalikho I. N., Banakh V. A., Falits A. V., Sherstobitov A. M. Lidar estimates of the degree of anisotropy of wind turbulence in the stable atmospheric boundary layer. P. 808–818
Bibliographic reference:
Smalikho I. N., Banakh V. A., Falits A. V., Sherstobitov A. M. Lidar estimates of the degree of anisotropy of wind turbulence in the stable atmospheric boundary layer. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 808–818. DOI: 10.15372/AOO20191002 [in Russian].
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3. Shikhovtsev A. Yu., Kovadlo P. G., Bol'basova L. A., Lukin V. P. Features of formation of wave front slopes on the telescope aperture at different vertical profiles of optical atmospheric turbulence. P. 819–823
Bibliographic reference:
Shikhovtsev A. Yu., Kovadlo P. G., Bol'basova L. A., Lukin V. P. Features of formation of wave front slopes on the telescope aperture at different vertical profiles of optical atmospheric turbulence. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 819–823. DOI: 10.15372/AOO20191003 [in Russian].
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Shikhovtsev A.Yu., Kovadlo P.G., Bol’basova L.A. and Lukin V.P. Features of the Formation of Wavefront Slopes on the Telescope Aperture at Different Vertical Profiles of Optical Atmospheric Turbulence // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 141–145.
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4. Shatunova M. V., Khlestova Yu. O., Chubarova N. E. Forecast of microphysical and optical characteristics of grid-scale clouds and its radiative effect with the mesoscale weather prediction model COSMO. P. 824–831
Bibliographic reference:
Shatunova M. V., Khlestova Yu. O., Chubarova N. E. Forecast of microphysical and optical characteristics of grid-scale clouds and its radiative effect with the mesoscale weather prediction model COSMO. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 824–831. DOI: 10.15372/AOO20191004 [in Russian].
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Shatunova M.V., Khlestova Yu.O. and Chubarova N.E. Forecast of Microphysical and Optical Characteristics of Large-Scale Cloud Cover and Its Radiative Effect Using the COSMO Mesoscale Weather Prediction Model // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 154–160.
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5. Veretennikov V. V., Men'shchikova S. S. Correction of the aerosol refractive index using the regression relationship between the volume concentration of particles and measurements of aerosol optical depth. P. 832–840
Bibliographic reference:
Veretennikov V. V., Men'shchikova S. S. Correction of the aerosol refractive index using the regression relationship between the volume concentration of particles and measurements of aerosol optical depth. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 832–840. DOI: 10.15372/AOO20191005 [in Russian].
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6. Lipatov E. I., Tarasenko V. F., Erofeev M. V., Ripenko V. S., Shulepov M. A. Vavilov–Cherenkov radiation in the region 200–300 nm in the Earth¢s atmosphere. P. 841–843
Bibliographic reference:
Lipatov E. I., Tarasenko V. F., Erofeev M. V., Ripenko V. S., Shulepov M. A. Vavilov–Cherenkov radiation in the region 200–300 nm in the Earth¢s atmosphere. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 841–843. DOI: 10.15372/AOO20191006 [in Russian].
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Lipatov E.I., Tarasenko V.F., Erofeev M.V., Ripenko V.S. and Shulepov M.A. Vavilov–Cherenkov Radiation in the Region 200–300 nm in the Earth’s Atmosphere // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 195–197.
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7. Belikov Yu. E., Dyshlevsky S. V., Repin A. Yu. The effect of thin high altitude clouds and aerosol layers on the solar radiation transfer to the Earth surface in twilight conditions. P. 844–847
Bibliographic reference:
Belikov Yu. E., Dyshlevsky S. V., Repin A. Yu. The effect of thin high altitude clouds and aerosol layers on the solar radiation transfer to the Earth surface in twilight conditions. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 844–847. DOI: 10.15372/AOO20191007 [in Russian].
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8. Gorchakov G. I., Buntov D. V., Karpov A. V., Kopeikin V. M., Mirsaitov S. F., Gushchin R. A., Dazenko O. I. Wind effect on saltating particle size distribution. P. 848–855
Bibliographic reference:
Gorchakov G. I., Buntov D. V., Karpov A. V., Kopeikin V. M., Mirsaitov S. F., Gushchin R. A., Dazenko O. I. Wind effect on saltating particle size distribution. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 848–855. DOI: 10.15372/AOO20191008 [in Russian].
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Gorchakov G.I., Buntov D.V., Karpov A.V., Kopeikin V.M., Mirsaitov S.F., Gushchin R.A. and Datsenko O.I. Wind Effect on the Size Distribution of Saltating Particles // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 198–205.
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9. Timofeev Yu. M., Virolainen Ya. A., Polyakov A. V. Estimates of variations in CO2 radiative forcing in the last century and in future. P. 856–859
Bibliographic reference:
Timofeev Yu. M., Virolainen Ya. A., Polyakov A. V. Estimates of variations in CO2 radiative forcing in the last century and in future. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 856–859. DOI: 10.15372/AOO20191009 [in Russian].
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Timofeev Yu.M., Virolainen Ya.A. and Polyakov A.V. Estimates of Variations in CO2 Radiative Forcing in the Last Century and in the Future // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 206–209.
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10. Foka S. Ch., Makarova M. V., Poberovsky A. V., Timofeev Yu. M. Temporal variations in CO2, CH4 and CO concentrations in Saint-Petersburg suburb (Peterhof). P. 860–866
Bibliographic reference:
Foka S. Ch., Makarova M. V., Poberovsky A. V., Timofeev Yu. M. Temporal variations in CO2, CH4 and CO concentrations in Saint-Petersburg suburb (Peterhof). // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 860–866. DOI: 10.15372/AOO20191010 [in Russian].
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11. Kalchikhin V. V., Kobzev A. A. Estimation of parameters of dangerous weather phenomena associated with atmospheric precipitates using the optical rain gauge. P. 867–869
Bibliographic reference:
Kalchikhin V. V., Kobzev A. A. Estimation of parameters of dangerous weather phenomena associated with atmospheric precipitates using the optical rain gauge. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 867–869. DOI: 10.15372/AOO20191011 [in Russian].
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Kalchikhin V.V. and Kobzev A.A. Estimation of Parameters of Dangerous Weather Phenomena Associated with Atmospheric Precipitates Using the Optical Precipitation Gage // Atmospheric and Oceanic Optics, 2020, V. 33. No. 02. pp. 216–218.
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12. Golovko V. V., Hlebus K. A., Belanova A. P. Study of sedimentation of pollen particle (individual grains and their clusters) of anemophilous plants growing in Western Siberia. P. 870–873
Bibliographic reference:
Golovko V. V., Hlebus K. A., Belanova A. P. Study of sedimentation of pollen particle (individual grains and their clusters) of anemophilous plants growing in Western Siberia. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 870–873. DOI: 10.15372/AOO20191012 [in Russian].
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13. Information. P. 874-876