Content of issue 08, volume 33, 2020

1. Starikov V. I. Universal analytical function for calculations of broadening of H2S absorption lines by noble gases. P. 583–590
Bibliographic reference:
Starikov V. I. Universal analytical function for calculations of broadening of H2S absorption lines by noble gases. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 583–590. DOI: 10.15372/AOO20200801 [in Russian].
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Starikov V.I. Universal Function for the Calculation of Broadening of Absorption Lines of the H2S Molecule by Monoatomic Gases // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 559–566
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2. Aksenov V. P., Dudorov V. V., Kolosov V. V., Pogutsa Ch. E., Levitsky M. E. The analysis of intensity correlation in laser transceiving systems for keying. P. 591–597
Bibliographic reference:
Aksenov V. P., Dudorov V. V., Kolosov V. V., Pogutsa Ch. E., Levitsky M. E. The analysis of intensity correlation in laser transceiving systems for keying. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 591–597. DOI: 10.15372/AOO20200802 [in Russian].
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Aksenov V.P., Dudorov V.V., Kolosov V.V., Pogutsa Ch.E. and Levitskii M.E. The Analysis of Intensity Correlation in Laser Transceiving Systems for Formation of a Cryptographic Key // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 571–577.
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3. Dudorov V. V., Nasonova A. S. Comparison of post-detection correction of short- and long-exposure images formed by commonly used and multi-aperture observation systems in a turbulent atmosphere. P. 598–603
Bibliographic reference:
Dudorov V. V., Nasonova A. S. Comparison of post-detection correction of short- and long-exposure images formed by commonly used and multi-aperture observation systems in a turbulent atmosphere. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 598–603. DOI: 10.15372/AOO20200803 [in Russian].
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Dudorov V.V. and Nasonova A.S. Comparison of Postdetection Correction of Short- and Long-Exposure Images Formed by Traditional and Multiaperture Observation Systems in a Turbulent Atmosphere // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 578–583.
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4. Gerasimov V. V. Short-term stability of temperature retrieval functions in the traditional pure rotational Raman lidar technique. P. 604-612
Bibliographic reference:
Gerasimov V. V. Short-term stability of temperature retrieval functions in the traditional pure rotational Raman lidar technique. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 604-612. DOI: 10.15372/AOO20200804 [in Russian].
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5. Biryukov E. Yu., Kostsov V. S. Application of a regression algorithm to the problem of studying horizontal inhomogeneity of the cloud liquid water path on the basis of the ground-based microwave observations in the angular scanning mode. P. 613-620
Bibliographic reference:
Biryukov E. Yu., Kostsov V. S. Application of a regression algorithm to the problem of studying horizontal inhomogeneity of the cloud liquid water path on the basis of the ground-based microwave observations in the angular scanning mode. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 613-620. DOI: 10.15372/AOO20200805 [in Russian].
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Biryukov E.Yu. and Kostsov V.S. Application of the Regression Algorithm to the Problem of Studying Horizontal Inhomogeneity of the Cloud Liquid Water Path by Ground-Based Microwave Measurements in the Angular Scanning Mode // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 602–609.
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6. Banakh V. A., Smalikho I. N., Falits A. V. Wind temperature probing in the atmospheric boundary layer in the coastal area of Lake Baikal. I. The Richardson number. P. 621-630
Bibliographic reference:
Banakh V. A., Smalikho I. N., Falits A. V. Wind temperature probing in the atmospheric boundary layer in the coastal area of Lake Baikal. I. The Richardson number. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 621-630. DOI: 10.15372/AOO20200806 [in Russian].
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7. Banakh V. A., Smalikho I. N., Falits A. V. Wind temperature probing in the atmospheric boundary layer in the coastal area of Lake Baikal. II. Atmospheric waves and wind turbulence. P. 631-642
Bibliographic reference:
Banakh V. A., Smalikho I. N., Falits A. V. Wind temperature probing in the atmospheric boundary layer in the coastal area of Lake Baikal. II. Atmospheric waves and wind turbulence. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 631-642. DOI: 10.15372/AOO20200807 [in Russian].
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8. Razenkov I. A. Peculiarities of atmospheric boundary layer sounding with a turbulent lidar. P. 643-648
Bibliographic reference:
Razenkov I. A. Peculiarities of atmospheric boundary layer sounding with a turbulent lidar. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 643-648. DOI: 10.15372/AOO20200808 [in Russian].
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Razenkov I.A. Specifics of Sounding the Atmospheric Boundary Layer with a Turbulent Lidar // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 610–615.
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9. Belan B. D., Ivlev G. A., Sklyadneva T. K. Investigating the relationship between ultraviolet radiation and the factors affecting it. Part I. The role of the total ozone content, cloudiness and aerosol optical depth. P. 649-655
Bibliographic reference:
Belan B. D., Ivlev G. A., Sklyadneva T. K. Investigating the relationship between ultraviolet radiation and the factors affecting it. Part I. The role of the total ozone content, cloudiness and aerosol optical depth. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 649-655. DOI: 10.15372/AOO20200809 [in Russian].
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Bibliographic reference to english version:
Belan B.D., Ivlev G.A. and Sklyadneva T.K. The Relationship between Ultraviolet Radiation and Meteorological Factors and Atmospheric Turbidity: Part I. Role of Total Ozone Content, Clouds, and Aerosol Optical Depth // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 638–644.
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10. Geints Yu. E., Zemlyanov A. A., Panina E. K., Minin I. V., Minin O. V. Generation of high-contrast “Talbot carpets” with the use of a mesoscale amplitude-phase mask. P. 656-659
Bibliographic reference:
Geints Yu. E., Zemlyanov A. A., Panina E. K., Minin I. V., Minin O. V. Generation of high-contrast “Talbot carpets” with the use of a mesoscale amplitude-phase mask. // Optika Atmosfery i Okeana. 2020. V. 33. No. 08. P. 656-659. DOI: 10.15372/AOO20200810 [in Russian].
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11. Information. P. 660