Content of issue 08, volume 34, 2021
Bibliographic reference
Tolstonogova Yu. S., Golik S. S., Maior A. Yu., Ilin A. A., Proschenko D. Yu., Bukin O. A. Effect of the repetition rate of laser pulses on the limits of detection of the elemental composition of pollutants in aqueous solutions by femtosecond laser induced breakdown spectroscopy . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 571–576. DOI: 10.15372/AOO20210801 [in Russian].
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Tolstonogova Yu.S., Golik S.S., Mayor A.Yu., Ilyin A.A., Proschenko D.Yu. and Bukin O.A. Effect of Laser Pulse Repetition Rate on the Detection Limits of the Elemental Composition of Pollutants in Aqueous Solutions by Femtosecond Laser Induced Breakdown Spectroscopy // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 553–559.
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Bibliographic reference
Tentyukov M. P., Shukurov K. A., Belan B. D., Simonenkov D. V., Yazikov E. G., Mikhailov V. I., Buchelnikov V. S. Conjugate analysis of the particle size distribution of aerosol matter in the surface air and snow cover: the effect of air masses on the distribution of aerosol particles . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 577–584. DOI: 10.15372/AOO20210802 [in Russian].
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Tentyukov M.P., Shukurov K.A., Belan B.D., Simonenkov D.V., Yazikov E.G., Mikhailov V.I. and Buchelnikov V.S. Coupled Analysis of Granulometric Composition of Aerosol Substance in Surface Air and Snow Cover: Effect of Air Masses on Aerosol Particle Distribution // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 586–595.
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Bibliographic reference
Tkachev I. V., Timofeev D. N., Kustova N. V., Konoshonkin A. V., Shmirko K. A. The Umov effect for irregular shaped particles larger than the wavelength . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 585–590. DOI: 10.15372/AOO20210803 [in Russian].
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Tkachev I.V., Timofeev D.N., Kustova N.V., Konoshonkin A.V. and Shmirko K.A. The Umov Effect for Large Irregular-Shaped Particles // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 596–602.
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Tsydenov B. O. The effects of heat fluxes on phytoplankton distribution in a freshwater lake . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 591–598. DOI: 10.15372/AOO20210804 [in Russian].
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Tsydenov B.O. Effects of Heat Fluxes on the Phytoplankton Distribution in a Freshwater Lake // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 603–610.
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Bibliographic reference
Banakh V. A., Gordeev E. V., Kuskov V. V., Rostov A. P., Shesternin A. N. Controlling the initial wavefront of a spatially partially coherent beam by the aperture probing method based on the signal of atmospheric backscatter. I. Experimental setup . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 599–605. DOI: 10.15372/AOO20210805 [in Russian].
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Banakh V.A., Gordeev E.V., Kuskov V.V., Rostov A.P. and Shesternin A.N. Controlling the Initial Wavefront of a Spatially Partially Coherent Beam by the Aperture Sensing Technique Based on Backscatter Signals in the Atmosphere: I. Experimental Setup // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 625–631.
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Bibliographic reference
Banakh V. A., Gordeev E. V., Kuskov V. V., Rostov A. P., Shesternin A. N. Controlling the initial wavefront of a spatially partially coherent beam by the aperture sensing technique based on backscatter signals in the atmosphere. II. Experiment . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 606–616. DOI: 10.15372/AOO20210806 [in Russian].
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Banakh V.A., Gordeev E.V., Kuskov V.V., Rostov A.P. and Shesternin A.N. Controlling the Initial Wavefront of a Spatially Partially Coherent Beam by the Aperture Sensing Technique Based on Backscatter Signals in the Atmosphere: II. Experiment // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 632–642.
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Bibliographic reference
Sosnin E. A., Kuznetsov V. S., Panarin V. A. Energy release in a thundercloud, which is necessary for the transient middle atmosphere light phenomena formation . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 617–620. DOI: 10.15372/AOO20210807 [in Russian].
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Sosnin E.A., Kuznetsov V.S. and Panarin V.A. Energy Release in a Thundercloud Necessary for the Formation of Middle Atmosphere Transient Light Phenomena // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 722–725.
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Tarasenkov M. V., Zonov M. N., Belov V. V., Engel' M. V. Passive satellite sensing of the Earth’s surface through gaps in cloudy fields . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 621–628. DOI: 10.15372/AOO20210808 [in Russian].
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Tarasenkov M.V., Zonov M.N., Belov V.V. and Engel M.V. Passive Satellite Sensing of the Earth’s Surface through Breaks in Cloud Fields // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 695–703.
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Zarochentsev G. A., Rubinshtein K. G. The quality of modern numerical visibility forecast methods
. // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 629–637. DOI: 10.15372/AOO20210809 [in Russian].
Copy the reference to clipboard. // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 629–637. DOI: 10.15372/AOO20210809 [in Russian].
Bibliographic reference
Gerasimov V. V. Method for determining cross sections of excitation transfer in collisions with atoms of rare-earth metals. 1. Description of the method . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 638–646. DOI: 10.15372/AOO20210810.
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Gerasimov V.V. Method for Determining Cross Sections of Excitation Transfer in Collisions with Atoms of Rare-earth Metals. 1. Description of the Method // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 738–746.
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Gerasimov V. V. Technique for determining cross sections of excitation transfer in collisions with atoms of rare-earth metals. 2. Application of the method . // Optika Atmosfery i Okeana. 2021. V. 34. No. 08. P. 647–660. DOI: 10.15372/AOO20210811 [in Russian].
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Gerasimov V.V. Method for Determining Cross Sections of Excitation Transfer in Collisions with Atoms of Rare-earth Metals. 2. Application of the Method // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 747–761.
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Personalia.. P. 661–662
