OPTIKA ATMOSFERY I OKEANA JOURNAL
V.E. ZUEV INSTITUTE OF ATMOSPHERIC OPTICS
Content of issue 03, volume 35, 2022
1. Bobrovnikov S. M., Gorlov E. V., Zharkov V. I. Efficiency of laser excitation of PO-photofragments of organophosphates. P. 175–185
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Bobrovnikov S. M., Gorlov E. V., Zharkov V. I. Efficiency of laser excitation of PO-photofragments of organophosphates. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 175–185. DOI: 10.15372/AOO20220301 [in Russian].
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Bobrovnikov S.M., Gorlov E.V. and Zharkov V.I. Efficiency of Laser Excitation of PO Photofragments of Organophosphates // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 329–340.
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2. Kochanov R. V. Integration of the spectral line parameters of CO2, N2O, NO2, and C2H2 into the node of the distributed information system VAMDC. P. 186–190
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Kochanov R. V. Integration of the spectral line parameters of CO2, N2O, NO2, and C2H2 into the node of the distributed information system VAMDC. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 186–190. DOI: 10.15372/AOO20220302 [in Russian].
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3. Nikitenko A. A., Timofeev Yu. M., Virolainen Ya. A., Nerobelov G. M., Poberovsky A. V. Comparison of CO2 measurements in stratosphere by ground-based and satellite methods. P. 191–194
Bibliographic reference:
Nikitenko A. A., Timofeev Yu. M., Virolainen Ya. A., Nerobelov G. M., Poberovsky A. V. Comparison of CO2 measurements in stratosphere by ground-based and satellite methods. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 191–194. DOI: 10.15372/AOO20220303 [in Russian].
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Nikitenko A.A., Timofeev Yu.M., Virolainen Ya.A., Nerobelov G.M. and Poberovskii A.V. Comparison of Stratospheric CO2 Measurements by Ground- and Satellite-Based Methods // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 341–344.
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4. Razenkov I. A. A heuristic approach to defining the structure parameter of the refractive index of atmosphere from the turbulent lidar data. P. 195–204
Bibliographic reference:
Razenkov I. A. A heuristic approach to defining the structure parameter of the refractive index of atmosphere from the turbulent lidar data. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 195–204. DOI: 10.15372/AOO20220304 [in Russian].
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Razenkov I.A. A Heuristic Approach to Defining the Structure Parameter of the Refractive Index of the Atmosphere from Turbulent Lidar Data // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 345–354.
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5. Mikhailovskii Yu. P., Zainetdinov B. G., Sin’kevich A. A., Pawar S. D., Toropova M. L., Kurov A. B., Gopalakrishnan V. Effectiveness of monitoring the electrical state of clouds in the near zone by remote radiophysical instruments. P. 205–211
Bibliographic reference:
Mikhailovskii Yu. P., Zainetdinov B. G., Sin’kevich A. A., Pawar S. D., Toropova M. L., Kurov A. B., Gopalakrishnan V. Effectiveness of monitoring the electrical state of clouds in the near zone by remote radiophysical instruments. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 205–211. DOI: 10.15372/AOO20220305 [in Russian].
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Mikhailovskii Yu.P., Zainetdinov B.G., Sin’kevich A.A., Pawar S.D., Toropova M.L., Kurov A.B. and Gopalakrishnan V. On Effectiveness of Monitoring the Electrical State of Clouds by Remote Radiophysical Instruments in the Near Zone // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 371–377.
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6. Kashkin V. B., Odintsov R. V., Rubleva T. V. Impact of nuclear explosions on the ozone layer of the Earth. P. 212–216
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Kashkin V. B., Odintsov R. V., Rubleva T. V. Impact of nuclear explosions on the ozone layer of the Earth. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 212–216. DOI: 10.15372/AOO20220306 [in Russian].
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Kashkin V.B., Odintsov R.V. and Rubleva T.V. On the Effects of a Nuclear Explosion on Stratospheric Ozone // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 402–406.
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7. Lavrent'ev N. A., Rodimova O. B., Fazliev A. Z. Systematization of published scientific graphics characterizing the water vapor continuum absorption: II Publications of 1981–2000. P. 217–231
Bibliographic reference:
Lavrent'ev N. A., Rodimova O. B., Fazliev A. Z. Systematization of published scientific graphics characterizing the water vapor continuum absorption: II Publications of 1981–2000. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 217–231. DOI: 10.15372/AOO20220307 [in Russian].
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Lavrentiev N.A., Rodimova O.B. and Fazliev A.Z. Systematization of Published Scientific Graphics Characterizing the Water Vapor Continuum Absorption: II. Publications of 1981–2000 // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 407–422.
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8. Kalinin N. A., Bykov A. V., Shikhov A. N. Object-oriented assessment of short-term forecast of convective hazardous weather events with the WRF model in Perm region. P. 232–240
Bibliographic reference:
Kalinin N. A., Bykov A. V., Shikhov A. N. Object-oriented assessment of short-term forecast of convective hazardous weather events with the WRF model in Perm region. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 232–240. DOI: 10.15372/AOO20220308 [in Russian].
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Kalinin N.A., Bykov A.V. and Shikhov A.N. Object-Oriented Estimation of the Short-Term Forecast of Convective Hazardous Weather Events in Perm Krai by the WRF Model // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 423–433.
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9. Kovadlo P. G., Bykov A. V., Shikhov A. N. The role of glaciers in the processes of climate warming. P. 241–245
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Kovadlo P. G., Bykov A. V., Shikhov A. N. The role of glaciers in the processes of climate warming. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 241–245. DOI: 10.15372/AOO20220309 [in Russian].
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Kovadlo P.G., Shikhovtsev A.Yu. and Yazev S.A. The Role of Glaciers in the Processes of Climate Warming // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 434–438.
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10. Gribova E. Z. Statistical properties of aerosol density in turbulent flows. P. 246–249
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Gribova E. Z. Statistical properties of aerosol density in turbulent flows. // Optika Atmosfery i Okeana. 2022. V. 35. No. 03. P. 246–249. DOI: 10.15372/AOO20220310 [in Russian].
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Gribova E.Z. Statistical Properties of Aerosol Density in Turbulent Flows // Atmospheric and Oceanic Optics, 2022, V. 35. No. 04. pp. 439–442.
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11. Information. P. 250-252