Content of issue 12, volume 35, 2022

1. Vasil’chenko S. S., Egorov O. V., Tyuterev Vl. G. Experiment on recording ozone absorption transitions to 3A2 triplet electronic state by high-sensitivity cavity ring-down spectroscopy in the range 9350–10000 cm-1. P. 971–978
Bibliographic reference:
Vasil’chenko S. S., Egorov O. V., Tyuterev Vl. G. Experiment on recording ozone absorption transitions to 3A2 triplet electronic state by high-sensitivity cavity ring-down spectroscopy in the range 9350–10000 cm-1. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 971–978. DOI: 10.15372/AOO20221201 [in Russian].
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2. Dyomin V. V., Davydova A. Yu., Polovtsev I. G., Yudin N. N., Zinoviev M. M. Accuracy of determination of longitudinal coordinates of particles by digital holography. P. 979–986
Bibliographic reference:
Dyomin V. V., Davydova A. Yu., Polovtsev I. G., Yudin N. N., Zinoviev M. M. Accuracy of determination of longitudinal coordinates of particles by digital holography. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 979–986. DOI: 10.15372/AOO20221202 [in Russian].
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3. Pol'kin Vas. V., Pol'kin V. V., Panchenko M. V. Long-term observations of the aureole scattering phase function in the surface air layer of the suburbs of Tomsk (2010–2021). P. 987–992
Bibliographic reference:
Pol'kin Vas. V., Pol'kin V. V., Panchenko M. V. Long-term observations of the aureole scattering phase function in the surface air layer of the suburbs of Tomsk (2010–2021). // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 987–992. DOI: 10.15372/AOO20221203 [in Russian].
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4. Bulygin A. D., Petrov A. V. Investigation of nonlinear propagation of powerful femtosecond laser radiation through aerosol. P. 993–998
Bibliographic reference:
Bulygin A. D., Petrov A. V. Investigation of nonlinear propagation of powerful femtosecond laser radiation through aerosol. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 993–998. DOI: 10.15372/AOO20221204 [in Russian].
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5. Zаdvornykh I. V., Gribanov K. G., Zakharov V. I., Imasu R. Retrieval of HDO relative content in atmosphere from simultaneous GOSAT-2 measurements in the thermal and near-IR. P. 999–1003
Bibliographic reference:
Zаdvornykh I. V., Gribanov K. G., Zakharov V. I., Imasu R. Retrieval of HDO relative content in atmosphere from simultaneous GOSAT-2 measurements in the thermal and near-IR. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 999–1003. DOI: 10.15372/AOO20221205 [in Russian].
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6. Banakh V. A., Smalikho I. N., Zaloznaya I. V. On the feasibility of lidar localization of the clear air turbulence. P. 1004–1007
Bibliographic reference:
Banakh V. A., Smalikho I. N., Zaloznaya I. V. On the feasibility of lidar localization of the clear air turbulence. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1004–1007. DOI: 10.15372/AOO20221206 [in Russian].
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7. Sin’kevich A. A., Kurov A. B., Mikhailovskii Yu. P., Toropova M. L., Veremei N. E. A study of thunderstorm characteristics in Northwest Russia using neural networks. P. 1008–1014
Bibliographic reference:
Sin’kevich A. A., Kurov A. B., Mikhailovskii Yu. P., Toropova M. L., Veremei N. E. A study of thunderstorm characteristics in Northwest Russia using neural networks. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1008–1014. DOI: 10.15372/AOO20221207 [in Russian].
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8. Gladkikh V. A., Mamysheva A. A., Nevzorova I. V., Odintsov S. L. Analysis of derivatives in equations of atmospheric hydrothermodynamics with the use of experimental data. Part 2: Equations for the wind field. P. 1015–1020
Bibliographic reference:
Gladkikh V. A., Mamysheva A. A., Nevzorova I. V., Odintsov S. L. Analysis of derivatives in equations of atmospheric hydrothermodynamics with the use of experimental data. Part 2: Equations for the wind field. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1015–1020. DOI: 10.15372/AOO20221208 [in Russian].
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9. Arshinov M. Yu., Belan B. D., Davydov D. K., Kozlov A. V., Fofonov A. V. Soil-atmosphere greenhouse gas fluxes in the meadow of a background area of the Tomsk region (West Siberia). P. 1021–1028
Bibliographic reference:
Arshinov M. Yu., Belan B. D., Davydov D. K., Kozlov A. V., Fofonov A. V. Soil-atmosphere greenhouse gas fluxes in the meadow of a background area of the Tomsk region (West Siberia). // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1021–1028. DOI: 10.15372/AOO20221209 [in Russian].
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10. Firsov K. M., Chesnokova T. Yu., Razmolov A. A. Impact of the water vapor continuum absorption on the CO2 radiative forcing in the atmosphere for Lower Volga Region. P. 1029–1035
Bibliographic reference:
Firsov K. M., Chesnokova T. Yu., Razmolov A. A. Impact of the water vapor continuum absorption on the CO2 radiative forcing in the atmosphere for Lower Volga Region. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1029–1035. DOI: 10.15372/AOO20221210 [in Russian].
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11. Kharyutkina E. V., Moraru E. I. Spatial and temporal variability of forest floor moisture characteristics and their influence on wildfires in Western Siberia over 2016–2021. P. 1036–1042
Bibliographic reference:
Kharyutkina E. V., Moraru E. I. Spatial and temporal variability of forest floor moisture characteristics and their influence on wildfires in Western Siberia over 2016–2021. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1036–1042. DOI: 10.15372/AOO20221211 [in Russian].
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12. Popovicheva O. B., Chichaeva M. A., Kobelev V. O., Kasimov N. S. Black carbon seasonal trends and regional sources on Bely Island (Arctic). P. 1043–1050
Bibliographic reference:
Popovicheva O. B., Chichaeva M. A., Kobelev V. O., Kasimov N. S. Black carbon seasonal trends and regional sources on Bely Island (Arctic). // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1043–1050. DOI: 10.15372/AOO20221212 [in Russian].
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13. Znamenskii I. V., Tikhomirov A. A. Outer space surveillance system for monitoring technogenic objects. P. 1051–1057
Bibliographic reference:
Znamenskii I. V., Tikhomirov A. A. Outer space surveillance system for monitoring technogenic objects. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1051–1057. DOI: 10.15372/AOO20221213 [in Russian].
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14. Trigub M. V., Vasnev N. A. Features of maging formation in a bistatic laser active optics system. P. 1058–1063
Bibliographic reference:
Trigub M. V., Vasnev N. A. Features of maging formation in a bistatic laser active optics system. // Optika Atmosfery i Okeana. 2022. V. 35. No. 12. P. 1058–1063. DOI: 10.15372/AOO20221214 [in Russian].
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15. Author Index. P. 1064–1066