Content of issue 02, volume 38, 2025

1. Lavrent'ev N. A., Rodimova O. B., Fazliev A. Z. On the spectral behavior of “unidentified” continious absorption in 8800 and 10600 cm-1 H2O bands. P. 87–92
Bibliographic reference:
Lavrent'ev N. A., Rodimova O. B., Fazliev A. Z. On the spectral behavior of “unidentified” continious absorption in 8800 and 10600 cm-1 H2O bands. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 87–92. DOI: 10.15372/AOO20250201 [in Russian].
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2. Nagovitsyna E. S., Luzhetskaya A. P., Poddubnyi V. A. Classification of atmospheric aerosol types based on photometric measurements and MUrA empirical regional model. P. 93–98
Bibliographic reference:
Nagovitsyna E. S., Luzhetskaya A. P., Poddubnyi V. A. Classification of atmospheric aerosol types based on photometric measurements and MUrA empirical regional model. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 93–98. DOI: 10.15372/AOO20250202.
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Nagovitsyna E.S., Luzhetskaya A.P., Poddubny V.A. Classification of Atmospheric Aerosols based on Photometric Measurements and Empirical Regional Model MUrA // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 259–265.
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3. Balin Yu. S., Kokhanenko G. P., Klemasheva M. G., Nasonov S. V., Novoselov M. M., Penner I. E. Distribution of phytoplankton content in the Kara Sea according to aircraft laser sounding data. P. 99–108
Bibliographic reference:
Balin Yu. S., Kokhanenko G. P., Klemasheva M. G., Nasonov S. V., Novoselov M. M., Penner I. E. Distribution of phytoplankton content in the Kara Sea according to aircraft laser sounding data. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 99–108. DOI: 10.15372/AOO20250203 [in Russian].
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Balin Yu.S., Kokhanenko G.P., Klemasheva M.G., Nasonov S.V., Novoselov M.M., Penner I.E. Phytoplankton Concentration Distribution in the Kara Sea According to Aircraft Laser Sounding Data // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 273–282.
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4. Kulikov Yu. Yu., Demin V. I., Demkin V. M., Kirillov A. S., Losev A. V., Ryskin V. G. Dynamic phenomena in stratospheric and mesospheric ozone of the polar atmosphere in February–March 2023. P. 109–114
Bibliographic reference:
Kulikov Yu. Yu., Demin V. I., Demkin V. M., Kirillov A. S., Losev A. V., Ryskin V. G. Dynamic phenomena in stratospheric and mesospheric ozone of the polar atmosphere in February–March 2023. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 109–114. DOI: 10.15372/AOO20250204 [in Russian].
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Kulikov Yu.Yu., Demin V.I., Demkin V.M., Kirillov A.S., Losev A.V., Ryskin V.G. Dynamic Phenomena in Stratospheric and Mesospheric Ozone of Polar Atmosphere in February–March 2023 // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 283–289.
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5. Skorokhodov A. V., Kuriyanovich K. V. Variability of multilayer cloud structure over Western and Eastern Siberia in summer and winter in 2006–2023 based on CALIPSO data. P. 115–124
Bibliographic reference:
Skorokhodov A. V., Kuriyanovich K. V. Variability of multilayer cloud structure over Western and Eastern Siberia in summer and winter in 2006–2023 based on CALIPSO data. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 115–124. DOI: 10.15372/AOO20250205 [in Russian].
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Skorokhodov A.V., Kuryanovich K.V. Variability of Multilayer Cloud Field Structure over Western and Eastern Siberia in Summer and Winter in 2006–2023 Based on CALIPSO Data // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 290–299.
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6. Konoshonkin A. V., Kustova N. V., Shishko V. A., Timofeev D. N., Babinovich A. E. Optical model of cirrus clouds with preferentially oriented particles for lidar applications. P. 125–133
Bibliographic reference:
Konoshonkin A. V., Kustova N. V., Shishko V. A., Timofeev D. N., Babinovich A. E. Optical model of cirrus clouds with preferentially oriented particles for lidar applications. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 125–133. DOI: 10.15372/AOO20250206 [in Russian].
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Konoshonkin A.V., Kustova N.V., Shishko V.A., Timofeev D.N., Babinovich A.E., Zhu Xuanhao, Wang Zhenzhu, Liu Dong, Wang Yingjian Optical Model of Cirrus Clouds with Preferentially Oriented Particles for Lidar Applications // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 308–316.
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7. Zuev S. V., Zolotov S. Yu. Detection and assessment of the amount of cumuliform clouds from global horizontal irradiance. P. 134–139
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Zuev S. V., Zolotov S. Yu. Detection and assessment of the amount of cumuliform clouds from global horizontal irradiance. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 134–139. DOI: 10.15372/AOO20250207 [in Russian].
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8. Tel'minov E. N., Berdybaeva Sh. T., Solodova T. A., Kurtsevich А.Е. . Dye-based waveguide laser sensor for detecting atmospheric gases. P. 140–145
Bibliographic reference:
Tel'minov E. N., Berdybaeva Sh. T., Solodova T. A., Kurtsevich А.Е. . Dye-based waveguide laser sensor for detecting atmospheric gases. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 140–145. DOI: 10.15372/AOO20250208 [in Russian].
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9. Abouellail Abdelmeguid Fathy Ahmed., Lugovskoy A. A., Trigub M. V. Optical inspection of surfaces under large strains using digital image correlation. P. 146–151
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Abouellail Abdelmeguid Fathy Ahmed., Lugovskoy A. A., Trigub M. V. Optical inspection of surfaces under large strains using digital image correlation. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 146–151. DOI: 10.15372/AOO20250209 [in Russian].
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Abdelmeguid Fathy Ahmed Abouellail, Lugovskoi A.A., Trigub M.V. Optical Inspection of Surfaces under Large Strains Using Digital Image Correlation // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 360–365.
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10. Bobrovnikov S. M., Bol'basova L. A., Gorlov E. V., Zharkov V. I., Lukin V. P. Comparative analysis of the excitation scheme efficiency of resonance and cascade fluorescence of mesosphere atoms for the creation of laser guide stars. Part I. Potassium and nickel atoms. P. 152–156
Bibliographic reference:
Bobrovnikov S. M., Bol'basova L. A., Gorlov E. V., Zharkov V. I., Lukin V. P. Comparative analysis of the excitation scheme efficiency of resonance and cascade fluorescence of mesosphere atoms for the creation of laser guide stars. Part I. Potassium and nickel atoms. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 152–156. DOI: 10.15372/AOO20250210 [in Russian].
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Bobrovnikov S.M., Bolbasova L.A., Gorlov E.V., Zharkov V.I., Lukin V.P. Efficiency of Resonance and Cascade Schemes of Fluorescence Excitation in Atoms in Mesosphere for Laser Guide Star Creation. Part I. Potassium and Nickel Atoms // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 366–371.
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11. Bobrovnikov S. M., Bol'basova L. A., Gorlov E. V., Zharkov V. I., Lukin V. P. Comparative analysis of the excitation scheme efficiency of resonance and cascade fluorescence of mesosphere atoms for the creation of laser guide stars. Part II. Iron atoms. P. 157–161
Bibliographic reference:
Bobrovnikov S. M., Bol'basova L. A., Gorlov E. V., Zharkov V. I., Lukin V. P. Comparative analysis of the excitation scheme efficiency of resonance and cascade fluorescence of mesosphere atoms for the creation of laser guide stars. Part II. Iron atoms. // Optika Atmosfery i Okeana. 2025. V. 38. No. 02. P. 157–161. DOI: 10.15372/AOO20250211 [in Russian].
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Bibliographic reference to english version:
Bobrovnikov S.M., Bolbasova L.A., Gorlov E.V., Zharkov V.I., Lukin V.P. Efficiency of Resonance and Cascade Schemes of Fluorescence Excitation in Atoms in Mesosphere for Laser Guide Star Creation. Part II. Iron Atoms // Atmospheric and Oceanic Optics, 2025, V. 38. No. 03. pp. 372–376.
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12. Information. P. 162