Content of issue 12, volume 34, 2021

1. Starikova E. N., Barbe A. Twelve experimental band centers of the 16O16O18O ozone isotopologue in the 3400–5600 cm-1 spectral range. Comparison with calculations from the potential energy surface of the molecule. P. 927–933
Bibliographic reference:
Starikova E. N., Barbe A. Twelve experimental band centers of the 16O16O18O ozone isotopologue in the 3400–5600 cm-1 spectral range. Comparison with calculations from the potential energy surface of the molecule. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 927–933. DOI: 10.15372/AOO20211201 [in Russian].
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Starikova E.N., Barbe A. Twelve Experimental Band Centers of the 16O16O18O Ozone Isotopologue in the 3400–5600 cm−1 Spectral Range: Comparison with Theoretical Predictions from the Potential Energy Surface // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 103–109.
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2. Rodimova O. B. On the role of  the continuum absorption definition in the case of the H2O–N2 absorption. P. 934–940
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Rodimova O. B. On the role of  the continuum absorption definition in the case of the H2O–N2 absorption. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 934–940. DOI: 10.15372/AOO20211202 [in Russian].
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Rodimova O.B. The Role of the Continuum Absorption Definition in the Case of H2O–N2 Absorption // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 118–124.
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3. Arshinova V. G., Arshinov M. Yu., Belan B. D., Davydov D. K., Ivlev G. A., Kozlov A. V., Kozlov A. S., Rasskazchikova T. M., Simonenkov D. V., Tolmachev G. N. Vertical distribution of n-alkanes in atmospheric aerosol in the Russian Arctic in September 2020. P. 941–947
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Arshinova V. G., Arshinov M. Yu., Belan B. D., Davydov D. K., Ivlev G. A., Kozlov A. V., Kozlov A. S., Rasskazchikova T. M., Simonenkov D. V., Tolmachev G. N. Vertical distribution of n-alkanes in atmospheric aerosol in the Russian Arctic in September 2020. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 941–947. DOI: 10.15372/AOO20211203 [in Russian].
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Arshinova V.G., Arshinov M.Yu., Belan B.D., Davydov D.K., Ivlev G.A., Kozlov A.V., Kozlov A.S., Rasskazchikova T.M., Simonenkov D.V. and Tolmachev G.N. Vertical Distribution of Alkanes in Atmospheric Aerosol in the Russian Arctic in September 2020 // Atmospheric and Oceanic Optics, 2021, V. 34. No. 06. pp. 577–585.
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4. Gorchakov G. I., Dazenko O. I., Kopeikin V. M., Karpov A. V., Gushchin R. A., Gorchakova I. A., Mirsaitov S. F., Ponomareva T. Ta. Dust haze over Northern China Plain. P. 948–955
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Gorchakov G. I., Dazenko O. I., Kopeikin V. M., Karpov A. V., Gushchin R. A., Gorchakova I. A., Mirsaitov S. F., Ponomareva T. Ta. Dust haze over Northern China Plain. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 948–955. DOI: 10.15372/AOO20211204 [in Russian].
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Gorchakov G. I., Datsenko O. I., Ponomareva T.Ya. Dust Haze over the North China Plain // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 125–132.
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5. Pol'kin V. V., Panchenko M. V., Terpugova S. A. Condensation activity of atmospheric aerosol particles of different size as assessed from the data of an optical counter. P. 956–964
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Pol'kin V. V., Panchenko M. V., Terpugova S. A. Condensation activity of atmospheric aerosol particles of different size as assessed from the data of an optical counter. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 956–964. DOI: 10.15372/AOO20211205 [in Russian].
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Pol’kin V.V., Panchenko M.V., Terpugova S.A. Condensation Activity of Different-Size Particles of Atmospheric Aerosol Using Photoelectric Counter Measurements // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 133–141.
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6. Popova S. A., Kozlov V. S., Makarov V. I., Konovalov I. B. Analysis of the UV irradiation effect on the composition and absorption properties of carbon-containing particles according to measurements of smoke from combustion of pine wood in the Big Aerosol Chamber. P. 965–968
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Popova S. A., Kozlov V. S., Makarov V. I., Konovalov I. B. Analysis of the UV irradiation effect on the composition and absorption properties of carbon-containing particles according to measurements of smoke from combustion of pine wood in the Big Aerosol Chamber. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 965–968. DOI: 10.15372/AOO20211206 [in Russian].
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Popova S.A., Kozlov V.S., Konovalov I.B. Analysis of the Effect of UV Irradiation on the Composition and Absorbing Properties of Carbon-Containing Particles Based on Measurements of Smoke from Burning Pine Wood in the Large Aerosol Chamber // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 142–145.
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7. Korshunov V. A. Multiple scattering in cirrus clouds and its accounting in processing of stratospheric lidar measurements. P. 969–975
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Korshunov V. A. Multiple scattering in cirrus clouds and its accounting in processing of stratospheric lidar measurements. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 969–975. DOI: 10.15372/AOO20211207 [in Russian].
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Korshunov V.A. Multiple Scattering in Cirrus Clouds and Taking It into Account When Interpreting Lidar Measurements in the Stratosphere // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 151–157.
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8. Kuskov V. V., Banakh V. A. Focusing a partially coherent beam based on the atmospheric backscatter signal. P. 976–981
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Kuskov V. V., Banakh V. A. Focusing a partially coherent beam based on the atmospheric backscatter signal. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 976–981. DOI: 10.15372/AOO20211208 [in Russian].
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Kuskov V.V., Banakh V.A. Partially Coherent Beam Focusing Based on Atmospheric Backscatter Signals // Atmospheric and Oceanic Optics, 2022, V. 35. No. 03. pp. 226–231.
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9. Tarasenko V. F. Analysis of the dynamics of atmospheric discharges based on data on cylindrical and spherical streamers. P. 982–985
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Tarasenko V. F. Analysis of the dynamics of atmospheric discharges based on data on cylindrical and spherical streamers. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 982–985. DOI: 10.15372/AOO20211209 [in Russian].
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Tarasenko V.F. Analysis of Dynamics of Atmospheric Discharges Using Data on Cylindrically and Spherically Shaped Streamers // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 164–167.
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10. Khazan V. L., Myshkin V. F., Khan V. A., Abramova E. S., Dvoryanchikov V. A., Zavyalov M. S. Noise-resistant modem for communication with deep-sea vehicles. P. 986–992
Bibliographic reference:
Khazan V. L., Myshkin V. F., Khan V. A., Abramova E. S., Dvoryanchikov V. A., Zavyalov M. S. Noise-resistant modem for communication with deep-sea vehicles. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 986–992. DOI: 10.15372/AOO20211210 [in Russian].
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Khazan V.L., Myshkin V.F., Khan V.A., Abramova E.S., Dvoryanchikov V.A., Zavyalov M.S. Noise-Resistant Modem for Communication with Deep-Sea Vehicles // Atmospheric and Oceanic Optics, 2022, V. 35. No. 02. pp. 176–182.
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11. Lukin V. P. Requirements for the dynamic characteristics of adaptive optics systems. P. 993–1001
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Lukin V. P. Requirements for the dynamic characteristics of adaptive optics systems. // Optika Atmosfery i Okeana. 2021. V. 34. No. 12. P. 993–1001. DOI: 10.15372/AOO20211211 [in Russian].
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Lukin V.P. Requirements for Dynamic Characteristics of Adaptive Optics Systems // Atmospheric and Oceanic Optics, 2022, V. 35. No. 03. pp. 218–225.
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12. Subject Index. P. 1002–1010
13. Author Index. P. 1011–1013
14. Information. P. 1014