OPTIKA ATMOSFERY I OKEANA JOURNAL
V.E. ZUEV INSTITUTE OF ATMOSPHERIC OPTICS
Content of issue 08, volume 36, 2023
1. Dеichuli V. M., Petrova T. M., Solodov A. M., Solodov A. A. Analysis of water molecule absorption line intensities in the IR spectral region. P. 613–618
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Dеichuli V. M., Petrova T. M., Solodov A. M., Solodov A. A. Analysis of water molecule absorption line intensities in the IR spectral region. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 613–618. DOI: 10.15372/AOO20230801 [in Russian].
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Deichuli V.M., Petrova T.M., Solodov A.M. and Solodov A.A. Water Molecule Absorption Line Intensities in the IR Spectral Region // Atmospheric and Oceanic Optics, 2023, V. 36. No. 06. pp. 639–644.
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2. Falits A. V., Kuskov V. V., Banakh V. A., Gerasimova L. O., Tsvyk R. Sh., Shesternin A. N. Deformation and wander of vortex beams in artificial convective turbulence. P. 619–630
Bibliographic reference:
Falits A. V., Kuskov V. V., Banakh V. A., Gerasimova L. O., Tsvyk R. Sh., Shesternin A. N. Deformation and wander of vortex beams in artificial convective turbulence. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 619–630. DOI: 10.15372/AOO20230802 [in Russian].
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3. Samoilova S. V., Kokhanenko G. P., Balin Yu. S. The advantages of an additional Raman channel in multi-wavelength lidar within 355–1064 nm for retrieval of the aerosol microphysical characteristics. P. 631–641
Bibliographic reference:
Samoilova S. V., Kokhanenko G. P., Balin Yu. S. The advantages of an additional Raman channel in multi-wavelength lidar within 355–1064 nm for retrieval of the aerosol microphysical characteristics. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 631–641. DOI: 10.15372/AOO20230803 [in Russian].
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Samoilova S.V., Kokhanenko G.P. and Balin Yu.S. Advantages of an Additional Raman Channel in Laser Sounding at Wavelengths of 355–1064 nm for Retrieving Microphysical Parameters of Atmospheric Aerosol // Atmospheric and Oceanic Optics, 2023, V. 36. No. 06. pp. 701–715.
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4. Andreev V. V., Arshinov M. Yu., Belan B. D., Belan S. B., Davydov D. K., Demin V. I., Dudorova N. V., Elansky N. F., Zhamsueva G. S., Zayakhanov A. S., Ivanov R. V., Ivlev G. A., Kozlov A. V., Konovaltseva L. V., Korenskii M. Yu., Kotelnikov S. N., Kuznetsova I. N., Lapchenko V. A., Lesina E. A., Obolkin V. A., Postylyakov O. V., Potemkin V. L., Savkin D. E., Semutnikova E. G., Senik I. A., Stepanov E. V., Tolmachev G. N., Fofonov A. V., Khodzher T. V., Chelibanov I. V., Chelibanov V. P., Shirotov V. V., Shukurov K. A. Tropospheric ozone concentration in Russia in 2022. P. 642–655
Bibliographic reference:
Andreev V. V., Arshinov M. Yu., Belan B. D., Belan S. B., Davydov D. K., Demin V. I., Dudorova N. V., Elansky N. F., Zhamsueva G. S., Zayakhanov A. S., Ivanov R. V., Ivlev G. A., Kozlov A. V., Konovaltseva L. V., Korenskii M. Yu., Kotelnikov S. N., Kuznetsova I. N., Lapchenko V. A., Lesina E. A., Obolkin V. A., Postylyakov O. V., Potemkin V. L., Savkin D. E., Semutnikova E. G., Senik I. A., Stepanov E. V., Tolmachev G. N., Fofonov A. V., Khodzher T. V., Chelibanov I. V., Chelibanov V. P., Shirotov V. V., Shukurov K. A. Tropospheric ozone concentration in Russia in 2022. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 642–655. DOI: 10.15372/AOO20230804 [in Russian].
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Andreev V.V., Arshinov M.Yu., Belan B.D. et al. Tropospheric Ozone Concentration in Russia in 2022 // Atmospheric and Oceanic Optics, 2023, V. 36. No. 06. pp. 741.
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5. Romanov N. P., Alekseeva A. V., Vasilyeva M. A., Dubtsov S. N., Ivanov V. N., Ozols O. I., Paleу A. A., Pisanko Yu. V., Sakhibgareev D. G. Generation of new aerosol particles and their evolution in atmospheric air: results of experiments in a Large Aerosol Chamber of RPA Typhoon. P. 656–661
Bibliographic reference:
Romanov N. P., Alekseeva A. V., Vasilyeva M. A., Dubtsov S. N., Ivanov V. N., Ozols O. I., Paleу A. A., Pisanko Yu. V., Sakhibgareev D. G. Generation of new aerosol particles and their evolution in atmospheric air: results of experiments in a Large Aerosol Chamber of RPA Typhoon. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 656–661. DOI: 10.15372/AOO20230805 [in Russian].
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Romanov N.P., Alekseeva A.V., Vasilyeva M.A., Dubtsov S.N., Ivanov V.N., Ozols O.I., Paley A.A., Pisanko Yu.V. and Sakhibgareev D.G. Generation of New Aerosol Particles and Their Evolution in Atmospheric Air: Results of Experiments in a Large Aerosol Chamber of RPA Typhoon // Atmospheric and Oceanic Optics, 2023, V. 36. issue 1 supplement. pp. S59–S64.
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6. Sin’kevich A. A., Mikhailovskii Yu. P., Kurov A. B., Tarabukin I. f., Veremei N. E., Dmitrieva O. A., Torgunakov R. E., Toropova M. L. Characteristics of convective clouds producing heavy precipitation in northwest Russia. P. 662–669
Bibliographic reference:
Sin’kevich A. A., Mikhailovskii Yu. P., Kurov A. B., Tarabukin I. f., Veremei N. E., Dmitrieva O. A., Torgunakov R. E., Toropova M. L. Characteristics of convective clouds producing heavy precipitation in northwest Russia. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 662–669. DOI: 10.15372/AOO20230806 [in Russian].
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Sin’kevich A.A., Mikhailovskii Yu.P., Kurov A.B., Tarabukin I.A., Veremei N.E., Dmitrieva O.A., Torgunakov R.E. and Toropova M.L. Characteristics of Convective Clouds Producing Heavy Precipitation in Northwest Russia // Atmospheric and Oceanic Optics, 2023, V. 36. issue 1 supplement. pp. S33–S40.
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7. Skorokhodov A. V., Pustovalov K. N., Kharyutkina E. V., Astafurov V. G. Cloud-base height retrieval from MODIS satellite data based on self-organizing neural networks. P. 670–680
Bibliographic reference:
Skorokhodov A. V., Pustovalov K. N., Kharyutkina E. V., Astafurov V. G. Cloud-base height retrieval from MODIS satellite data based on self-organizing neural networks. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 670–680. DOI: 10.15372/AOO20230807 [in Russian].
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Skorokhodov A.V., Pustovalov K.N., Kharyutkina E.V. and Astafurov V.G. Cloud-Base Height Retrieval from MODIS Satellite Data Based on Self-Organizing Neural Networks // Atmospheric and Oceanic Optics, 2023, V. 36. No. 06. pp. 723–734.
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8. Zenov K. G., Karapuzikov A. I., Miroshnichenko M. B., Nehorosheva E. G. Optimization of the spectral composition of radiation from a compact CO2 laser for an optoacoustic gas analyzer of SF6. P. 681–686
Bibliographic reference:
Zenov K. G., Karapuzikov A. I., Miroshnichenko M. B., Nehorosheva E. G. Optimization of the spectral composition of radiation from a compact CO2 laser for an optoacoustic gas analyzer of SF6. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 681–686. DOI: 10.15372/AOO20230808 [in Russian].
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Zenov K.G., Miroshnichenko M.B., Karapuzikov A.I. and Nehorosheva E.G. Optimization of the Spectral Composition of Radiation from a Compact CO2 Laser for an Optoacoustic Gas Analyzer for SF6 // Atmospheric and Oceanic Optics, 2023, V. 36. No. 06. pp. 735–740.
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9. Balin Yu. S., Klemasheva M. G., Kokhanenko G. P., Nasonov S. V., Novoselov M. M., Samoilova S. V., Penner I. E. Modernization of the “LOZA-A2” lidar for simultaneous measurements of the vibrational-rotational and purely rotational Raman spectra. P. 687–693
Bibliographic reference:
Balin Yu. S., Klemasheva M. G., Kokhanenko G. P., Nasonov S. V., Novoselov M. M., Samoilova S. V., Penner I. E. Modernization of the “LOZA-A2” lidar for simultaneous measurements of the vibrational-rotational and purely rotational Raman spectra. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 687–693. DOI: 10.15372/AOO20230809 [in Russian].
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Balin Yu.S., Klemasheva M.G., Kokhanenko G.P., Nasonov S.V., Novoselov M.M., Samoilova S.V. and Penner I.E. Modernization of the LOZA-A2 Lidar for Simultaneous Measurements of Vibrational-Rotational and Purely Rotational Raman Spectra // Atmospheric and Oceanic Optics, 2023, V. 36. No. 06. pp. 810–815.
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10. Marakasov D. A., Sukharev A. A., Tsvyk R. Sh. Study of the structure of underexpanded turbulent supersonic jets by the laser transillumination method. P. 694–701
Bibliographic reference:
Marakasov D. A., Sukharev A. A., Tsvyk R. Sh. Study of the structure of underexpanded turbulent supersonic jets by the laser transillumination method. // Optika Atmosfery i Okeana. 2023. V. 36. No. 08. P. 694–701. DOI: 10.15372/AOO20230810 [in Russian].
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11. Information. P. 702