Content of issue 11, volume 37, 2024

1. Shcherbakov A. P. Neural network for fitting vibrational-rotational line contours in high-resolution spectra. P. 897–904
Bibliographic reference:
Shcherbakov A. P. Neural network for fitting vibrational-rotational line contours in high-resolution spectra. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 897–904. DOI: 10.15372/AOO20241101 [in Russian].
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2. Lavrent'ev N. A., Rodimova O. B., Fazliev A. Z. Systematization of published research plots representing spectral data related to the carbon dioxide continuum absorption. 2. Publication of 1991–2000. P. 905–917
Bibliographic reference:
Lavrent'ev N. A., Rodimova O. B., Fazliev A. Z. Systematization of published research plots representing spectral data related to the carbon dioxide continuum absorption. 2. Publication of 1991–2000. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 905–917. DOI: 10.15372/AOO20241102 [in Russian].
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3. Banakh V. A., Smalikho I. N., Zaloznaya I. V. Experimental verification of the model dependence of the turbulent Prandtl number on the gradient Richardson number. P. 918–923
Bibliographic reference:
Banakh V. A., Smalikho I. N., Zaloznaya I. V. Experimental verification of the model dependence of the turbulent Prandtl number on the gradient Richardson number. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 918–923. DOI: 10.15372/AOO20241103 [in Russian].
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Banakh V.A., Smalikho I.N., Zaloznaya I.V. Experimental Verification of the Model Dependence of the Turbulent Prandtl Number on the Gradient Richardson Number // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 12–17.
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4. Simonova G. V., Kalashnikova D. A., Zolotov S. Yu., Davydkina A. E., Batukhtina A. S. Carbon isotope composition of atmospheric aerosol in Tomsk (winter–spring 2020–2021). P. 924–929
Bibliographic reference:
Simonova G. V., Kalashnikova D. A., Zolotov S. Yu., Davydkina A. E., Batukhtina A. S. Carbon isotope composition of atmospheric aerosol in Tomsk (winter–spring 2020–2021). // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 924–929. DOI: 10.15372/AOO20241104 [in Russian].
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5. Russkova T. V., Skorokhodov A. V. Applicability of a neural network approach to retrieving the optical thickness and effective radius of droplets in single-layer horizontally inhomogeneous cloudiness. P. 930–938
Bibliographic reference:
Russkova T. V., Skorokhodov A. V. Applicability of a neural network approach to retrieving the optical thickness and effective radius of droplets in single-layer horizontally inhomogeneous cloudiness. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 930–938. DOI: 10.15372/AOO20241105 [in Russian].
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Russkova T.V., Skorokhodov A.V. Applicability of a Neural Network Approach to Retrieving the Optical Thickness and Effective Radius of Droplets in Single-Layer Horizontally Inhomogeneous Cloudiness // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 18–26.
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6. Samoilova S. V., Balin Yu. S., Penner I. E. Estimation of atmospheric optical parameters with simultaneous measurement of vibrational-rotational and purely rotational Raman spectra. P. 939–946
Bibliographic reference:
Samoilova S. V., Balin Yu. S., Penner I. E. Estimation of atmospheric optical parameters with simultaneous measurement of vibrational-rotational and purely rotational Raman spectra. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 939–946. DOI: 10.15372/AOO20241106 [in Russian].
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Samoilova S.V., Balin Yu.S., Penner I.E. Estimation of Atmospheric Optical Parameters with Simultaneous Measurement of Vibrational-Rotational and Purely Rotational Raman Spectra // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 27–36.
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7. Antokhina O. Yu., Bobrovnikov S. M., Zharkov V. I., Zorkal’tseva O. S., Trifonov D. A. Features of the vertical distribution of air temperature over Tomsk during sudden stratospheric warming in winter 2023 according to data from the Siberian lidar station. P. 947–953
Bibliographic reference:
Antokhina O. Yu., Bobrovnikov S. M., Zharkov V. I., Zorkal’tseva O. S., Trifonov D. A. Features of the vertical distribution of air temperature over Tomsk during sudden stratospheric warming in winter 2023 according to data from the Siberian lidar station. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 947–953. DOI: 10.15372/AOO20241107 [in Russian].
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Antokhina O.Yu., Bobrovnikov S.M., Zharkov V.I., Zorkaltseva O.S., Trifonov D.A. Features of the Vertical Distribution of Air Temperature over Tomsk during Sudden Stratospheric Warming in Winter 2023 According to Data from the Siberian Lidar Station // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 59–64.
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8. Shikhovtsev M. Yu., Shikhovtsev A. Yu., Kovadlo P. G., Obolkin V. A., Molozhnikova E. V. Influence of air movement structure on the microphysical properties of the atmosphere over Listvyanka. P. 954–961
Bibliographic reference:
Shikhovtsev M. Yu., Shikhovtsev A. Yu., Kovadlo P. G., Obolkin V. A., Molozhnikova E. V. Influence of air movement structure on the microphysical properties of the atmosphere over Listvyanka. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 954–961. DOI: 10.15372/AOO20241108 [in Russian].
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Shikhovtsev M.Yu., Shikhovtsev A.Yu., Kovadlo P.G., Obolkin V.A.,  Molozhnikova Ye.V. Influence of Air Movement Structure on Microphysical Properties of the Atmosphere over Listvyanka // Atmospheric and Oceanic Optics, 2025, V. 38. No. 02. pp. 180–187.
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9. Kruglinsky I. A., Kabanov D. M., Sakerin S. M. Estimates of the frequency of synoptic variations in aerosol characteristics in the Arctic atmosphere and the contribution of various pollutants to anomalously high aerosol concentrations. P. 962–969
Bibliographic reference:
Kruglinsky I. A., Kabanov D. M., Sakerin S. M. Estimates of the frequency of synoptic variations in aerosol characteristics in the Arctic atmosphere and the contribution of various pollutants to anomalously high aerosol concentrations. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 962–969. DOI: 10.15372/AOO20241109 [in Russian].
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Kruglinsky I.A., Kabanov D.M., Sakerin S.M. Estimates of the Frequency of Synoptic Variations in Aerosol Characteristics in the Arctic Atmosphere and the Contribution of Various Pollutants to Anomalously High Aerosol Concentrations // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 69–76.
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10. Timoshenko D. V., Kupovykh G. V., Kudrinskaya T. V. Daily dynamics of the electric field in the turbulent surface air layer under the action of local factors. P. 970–975
Bibliographic reference:
Timoshenko D. V., Kupovykh G. V., Kudrinskaya T. V. Daily dynamics of the electric field in the turbulent surface air layer under the action of local factors. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 970–975. DOI: 10.15372/AOO20241110 [in Russian].
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Timoshenko D.V., Kupovykh G.V., Kudrinskaya T.V. Daily Dynamics of the Electric Field in the Turbulent Surface Air Layer under the Action of Local Factors // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 77–82.
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11. Alexeeva M. N., Fedorov D. V., Yashchenko I. G., Russkikh I. V. Simulation of greenhouse gas content in the atmosphere of oil and gas producing areas. P. 976–982
Bibliographic reference:
Alexeeva M. N., Fedorov D. V., Yashchenko I. G., Russkikh I. V. Simulation of greenhouse gas content in the atmosphere of oil and gas producing areas. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 976–982. DOI: 10.15372/AOO20241111 [in Russian].
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Alekseeva M.N., Fedorov D.V., Yashchenko I.G., Russkikh I.V. Simulation of Greenhouse Gas Content in the Atmosphere of Oil- and Gas-Producing Areas // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 96–102.
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12. Zyatikov I. A., Losev V. F. Control of the spectral composition of coherent radiation on molecular nitrogen ions in laser plasma in the case of two-color pumping. P. 983–987
Bibliographic reference:
Zyatikov I. A., Losev V. F. Control of the spectral composition of coherent radiation on molecular nitrogen ions in laser plasma in the case of two-color pumping. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 983–987. DOI: 10.15372/AOO20241112 [in Russian].
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Zyatikov I. A., Losev V.F. Control of the Spectral Composition of Coherent Radiation on Molecular Nitrogen Ions in Laser Plasma Using Two-Color Pumping // Atmospheric and Oceanic Optics, 2025, V. 38. No. 01. pp. 118–122.
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13. Gladkikh V. A., Kamardin A. P., Nevzorova I. V., Odintsov S. L. Air temperature variance under conditions of temperature inversion. P. 988–989
Bibliographic reference:
Gladkikh V. A., Kamardin A. P., Nevzorova I. V., Odintsov S. L. Air temperature variance under conditions of temperature inversion. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 988–989. DOI: 10.15372/AOO20241113 [in Russian].
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Gladkikh V.A., Kamardin A.P., Nevzorova I.V., Odintsov S.L. Air Temperature Variance under Conditions of Temperature Inversion // Atmospheric and Oceanic Optics, 2025, V. 38. No. 02. pp. 216–219.
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14. Romanovskii O. A., Kharchenko O. V., Yakovlev S. V. XXX Anniversary International Symposium “Atmospheric and Ocean Optics. Atmospheric Physics”. P. 990–993
Bibliographic reference:
Romanovskii O. A., Kharchenko O. V., Yakovlev S. V. XXX Anniversary International Symposium “Atmospheric and Ocean Optics. Atmospheric Physics”. // Optika Atmosfery i Okeana. 2024. V. 37. No. 11. P. 990–993. DOI: 10.15372/AOO20241114 [in Russian].
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15. Information. P. 994