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Content of issue 07, volume 33, 2020

1. Solodov A. A., Petrova T. M., Ponomarev Yu. N., Solodov A. M., Shаlygin A. S. Rotational dependence of line half-width for the fundamental band 0 0 0 11  0 0 0 01 of CO2 confined in nanoporous aerogel: new measurements. P. 505–508
Bibliographic reference:
Solodov A. A., Petrova T. M., Ponomarev Yu. N., Solodov A. M., Shаlygin A. S. Rotational dependence of line half-width for the fundamental band 0 0 0 11  0 0 0 01 of CO2 confined in nanoporous aerogel: new measurements. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 505–508. DOI: 10.15372/AOO20200701 [in Russian].
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Solodov A.A., Petrova T.M., Ponomarev Yu.N., Solodov A.M. and Shalygin A.S. Rotational Dependence of Line Halfwidth for the Fundamental Band 0 0 0 11–0 0 0 01 of CO2 Confined in Nanoporous Aerogel: New Measurements // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 567570.
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2. Bazhenov O. E., Nevzorov A. A., Nevzorov A. V., Dolgii S. I., Makeev A. P. Disturbance of the stratosphere over Tomsk in winter 2017/2018 using lidar and Aura MLS/OMI observations. P. 509–515
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Bazhenov O. E., Nevzorov A. A., Nevzorov A. V., Dolgii S. I., Makeev A. P. Disturbance of the stratosphere over Tomsk in winter 2017/2018 using lidar and Aura MLS/OMI observations. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 509–515. DOI: 10.15372/AOO20200702 [in Russian].
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Bazhenov O.E., Nevzorov A.A., Nevzorov A.V., Dolgii S.I. and Makeev A.P. Disturbance of the Stratosphere over Tomsk during Winter 2017/2018 Using Lidar and Aura MLS/OMI Observations // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 622–628.
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3. Shamanaev V. S. Hydrooptical signals of an airborne polarization lidar for sensing the homogeneous sea water depth. P. 516-521
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Shamanaev V. S. Hydrooptical signals of an airborne polarization lidar for sensing the homogeneous sea water depth. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 516-521. DOI: 10.15372/AOO20200703 [in Russian].
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Shamanaev V.S. Hydrooptical Signals of an Airborne Polarization Lidar for Sensing of Homogeneous Sea Water Depth // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 616–621.
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4. Shishko V. A., Konoshonkin A. V., Kustova N. V., Timofeev D. N. Light scattering on spherical particles for lidar applications. P. 522–528
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Shishko V. A., Konoshonkin A. V., Kustova N. V., Timofeev D. N. Light scattering on spherical particles for lidar applications. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 522–528. DOI: 10.15372/AOO20200704 [in Russian].
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5. Аntokhin P. N., Antokhina O. Yu., Antonovich V. V., Arshinova V. G., Arshinov M. Yu., Belan B. D., Belan S. B., Davydov D. K., Dudorova N. V., Ivlev G. A., Kozlov A. V., Pestunov D. A., Rasskazchikova T. M., Savkin D. E., Simonenkov D. V., Sklyadneva T. K., Tolmachev G. N., Fofonov A. V. Correlation between the dynamics of atmospheric composition and meteorological parameters near Tomsk. P. 529–537
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Аntokhin P. N., Antokhina O. Yu., Antonovich V. V., Arshinova V. G., Arshinov M. Yu., Belan B. D., Belan S. B., Davydov D. K., Dudorova N. V., Ivlev G. A., Kozlov A. V., Pestunov D. A., Rasskazchikova T. M., Savkin D. E., Simonenkov D. V., Sklyadneva T. K., Tolmachev G. N., Fofonov A. V. Correlation between the dynamics of atmospheric composition and meteorological parameters near Tomsk. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 529–537. DOI: 10.15372/AOO20200705 [in Russian].
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Antokhin P.N., Antokhina O.Yu., Antonovich V.V., Arshinova V.G., Arshinov M.Yu., Belan B.D., Belan S.B., Davydov D.K., Dudorova  N.V., Ivlev G.A., Kozlov A.V., Pestunov D.A., Rasskazchikova T.M., Savkin D.E., Simonenkov D.V., Sklyadneva T.K., Tolmachev G.N. and Fofonov A.V. Interrelation between Dynamics of Gas Composition and Meteorological Parameters in the Region of Tomsk // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 629–637.
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6. Nikitenko A. A., Timofeev Yu. M., Berezin I. A., Virolainen Ya. A., Polyakov A. V. The analysis of OCO-2 satellite measurements of CO2 in the vicinity of Russian cities. P. 538–543
Bibliographic reference:
Nikitenko A. A., Timofeev Yu. M., Berezin I. A., Virolainen Ya. A., Polyakov A. V. The analysis of OCO-2 satellite measurements of CO2 in the vicinity of Russian cities. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 538–543. DOI: 10.15372/AOO20200706 [in Russian].
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Nikitenko A.A., Timofeev Yu.M., Berezin I.A., Poberovskii A.V., Virolainen Ya.A. and Polyakov A.V. The Analysis of OCO-2 Satellite Measurements of CO2 in the Vicinity of Russian Cities // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 650–655.
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7. Arshinov M. Yu., Belan B. D., Davydov D. K., Kozlov A. V., Fofonov A. V., Arshinova V. G. Investigation of the spatial distribution of CO2 and CH4 in the atmospheric surface layer over Western Siberia using a mobile platform. P. 544–552
Bibliographic reference:
Arshinov M. Yu., Belan B. D., Davydov D. K., Kozlov A. V., Fofonov A. V., Arshinova V. G. Investigation of the spatial distribution of CO2 and CH4 in the atmospheric surface layer over Western Siberia using a mobile platform. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 544–552. DOI: 10.15372/AOO20200707 [in Russian].
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Arshinov M.Yu., Belan B.D., Davydov D.K., Kozlov A.V., Fofonov A.V. and Arshinova V.G. Study of the Spatial Distributions of CO2 and CH4 in the Surface Air Layer over Western Siberia Using a Mobile Platform // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 661–670.
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8. Afanas'ev A. L., Dudorov V. V., Mikhailov Yu. T., Nasonova A. S., Rostov A. P., Shestakov Sh. O. Retrieval of crosswind velocity based on the analysis of remote object images. Part 3. Experimental test. P. 553–558
Bibliographic reference:
Afanas'ev A. L., Dudorov V. V., Mikhailov Yu. T., Nasonova A. S., Rostov A. P., Shestakov Sh. O. Retrieval of crosswind velocity based on the analysis of remote object images. Part 3. Experimental test. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 553–558. DOI: 10.15372/AOO20200708 [in Russian].
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Afanasiev A.L., Dudorov V.V., Mikhailov Yu.T., Nasonova A.S., Rostov A.P. and Shestakov S.O. Retrieval of Crosswind Velocity Based on the Analysis of Remote Object Images: Part 3–Experimental Test // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 690–695.
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9. Bobrovnikov S. M., Gorlov E. V., Zharkov V. I., Trifonov D. A. The alignment technique and quality check of the large mirror of the Siberian lidar station. P. 559–564
Bibliographic reference:
Bobrovnikov S. M., Gorlov E. V., Zharkov V. I., Trifonov D. A. The alignment technique and quality check of the large mirror of the Siberian lidar station. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 559–564. DOI: 10.15372/AOO20200709 [in Russian].
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Bobrovnikov S.M., Gorlov E.V., Zharkov V.I. and Trifonov D.A. Alignment Technique and Quality Check of the Primary Mirror of the Siberian Lidar Station // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 696–701.
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10. Denisova N. Yu., Gribanov K. G., Werner M. Validation of AGCMs ECHAM using laser spectrometer data obtained at two Arctic stations. P. 565–570
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Denisova N. Yu., Gribanov K. G., Werner M. Validation of AGCMs ECHAM using laser spectrometer data obtained at two Arctic stations. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 565–570. DOI: 10.15372/AOO20200710 [in Russian].
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Denisova N.Yu., Gribanov K.G. and Werner M. Validation of ECHAM AGCMs Using Laser Spectrometer Data from Two Arctic Stations // Atmospheric and Oceanic Optics, 2020, V. 33. No. 06. pp. 702–707.
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11. Zapevalov A. S. Determination of phase velocities from optical images of the sea surface. P. 571-574
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Zapevalov A. S. Determination of phase velocities from optical images of the sea surface. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 571-574. DOI: 10.15372/AOO20200711 [in Russian].
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12. Golubiatnikov G. Yu., Kuryak A. N., Tikhomirov B. A. Water vapor absorption of 266 nm laser nanosecond pulses with linear and circular radiation polarization. P. 575–577
Bibliographic reference:
Golubiatnikov G. Yu., Kuryak A. N., Tikhomirov B. A. Water vapor absorption of 266 nm laser nanosecond pulses with linear and circular radiation polarization. // Optika Atmosfery i Okeana. 2020. V. 33. No. 07. P. 575–577. DOI: 10.15372/AOO20200712 [in Russian].
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Golubiatnikov G.Yu., Kuryak A.N. and Tikhomirov B.A. Water Vapor Absorption of 266-nm Nanosecond Laser Pulses with Linear and Circular Radiation Polarization // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 513–515.
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13. Informaton. P. 578-580