OPTIKA ATMOSFERY I OKEANA JOURNAL
V.E. ZUEV INSTITUTE OF ATMOSPHERIC OPTICS
Content of issue 05, volume 35, 2022
1. Geints Yu. E., Zemlyanov A. A., Minina O. V. Propagation of phase-modulated high-power femtosecond laser pulses in the self-channeling and filamentation mode in air. P. 345–355
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Geints Yu. E., Zemlyanov A. A., Minina O. V. Propagation of phase-modulated high-power femtosecond laser pulses in the self-channeling and filamentation mode in air. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 345–355. DOI: 10.15372/AOO20220501 [in Russian].
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Geints Yu.E., Zemlyanov A.A. and Minina O.V. Propagation of High-Power Phase-Modulated Femtosecond Laser Pulses in Air in the Self-Channeling and Filamentation Modes // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 475–484.
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2. Bаbushkin P. A., Matvienko G. G., Oshlakov V. K. Quantitative spectral analysis by femtosecond pulse laser-induced breakdown spectroscopy. P. 356–360
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Bаbushkin P. A., Matvienko G. G., Oshlakov V. K. Quantitative spectral analysis by femtosecond pulse laser-induced breakdown spectroscopy. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 356–360. DOI: 10.15372/AOO20220502 [in Russian].
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Babushkin P.A., Matvienko G.G. and Oshlakov V.K. Spectral Analysis of Aqueous Aerosol by Femtosecond Pulse Laser-Induced Breakdown Method // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 485–489.
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3. Bobrovnikov S. M., Gorlov E. V., Zharkov V. I., Murashko S. N. Estimation of the efficiency of laser excitation of the B2Σ+ (v´ = 0) - X2Π (v´´ = 0) transition of phosphorus oxide. P. 361–368
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Bobrovnikov S. M., Gorlov E. V., Zharkov V. I., Murashko S. N. Estimation of the efficiency of laser excitation of the B2Σ+ (v´ = 0) - X2Π (v´´ = 0) transition of phosphorus oxide. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 361–368. DOI: 10.15372/AOO20220503 [in Russian].
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4. Tentyukov M. P., Belan B. D., Simonenkov D. V., Mikhailov V. I. Generation of secondary organic aerosols on needle surfaces and their entry into the winter forest canopy under radiometric photophoresis. P. 369–375
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Tentyukov M. P., Belan B. D., Simonenkov D. V., Mikhailov V. I. Generation of secondary organic aerosols on needle surfaces and their entry into the winter forest canopy under radiometric photophoresis. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 369–375. DOI: 10.15372/AOO20220504 [in Russian].
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Tentyukov M.P., Belan B.D., Simonenkov D.V. and Mikhailov V.I. Generation of Secondary Organic Aerosols on Needle Surfaces and Their Entry into the Winter Forest Canopy under Radiometric Photophoresis // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 490–496.
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5. Maior A. Yu., Golik S. S., Tolstonogova Yu. S., Ilin A. A., Bukin O. A. Dependence of the intensity of emission lines of chemical elements on the duration of laser pulses in the method of filament-induced breakdown spectroscopy of aqueous aerosol. P. 376–380
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Maior A. Yu., Golik S. S., Tolstonogova Yu. S., Ilin A. A., Bukin O. A. Dependence of the intensity of emission lines of chemical elements on the duration of laser pulses in the method of filament-induced breakdown spectroscopy of aqueous aerosol. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 376–380. DOI: 10.15372/AOO20220505 [in Russian].
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Mayor Yu., Golik S.S., Tolstonogova Yu.S., Ilyin A.A. and Bukin O.A. Dependence of the Intensity of Emission Lines of Chemical Elements on Laser Pulse Duration in the Method of Filament-Induced Breakdown Spectroscopy of Aqueous Aerosol // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 497–500.
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6. Razenkov I. A. Comparison of turbulent lidar data with meteorological measurements. P. 381–389
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Razenkov I. A. Comparison of turbulent lidar data with meteorological measurements. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 381–389. DOI: 10.15372/AOO20220506 [in Russian].
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Razenkov A. Comparison between Turbulent Lidar Data and Meteorological Measurements // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 501–508.
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7. Bazhenov O. E. Ozone anomalies in the stratosphere of the Arctic and northern Eurasia: Comparison of 2011 and 2020 events using TEMIS and Aura MLS data. P. 390–396
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Bazhenov O. E. Ozone anomalies in the stratosphere of the Arctic and northern Eurasia: Comparison of 2011 and 2020 events using TEMIS and Aura MLS data. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 390–396. DOI: 10.15372/AOO20220507 [in Russian].
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Bazhenov O.E. Ozone Anomalies in the Stratosphere of the Arctic and North Eurasia: Comparison of the 2011 and 2020 Events Using TEMIS and Aura MLS Data // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 517–523.
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8. Shaparev N. Ya., Tokarev A. V., Yakubailik O. E. Formation of fogs downstream of the Krasnoyarsk hydropower plant on the Yenisei river. P. 397–401
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Shaparev N. Ya., Tokarev A. V., Yakubailik O. E. Formation of fogs downstream of the Krasnoyarsk hydropower plant on the Yenisei river. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 397–401. DOI: 10.15372/AOO20220508 [in Russian].
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9. Tsydenov B. O. Wind effects on the distribution of plankton and nutrients during the autumn cooling of Lake Baikal. P. 402–407
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Tsydenov B. O. Wind effects on the distribution of plankton and nutrients during the autumn cooling of Lake Baikal. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 402–407. DOI: 10.15372/AOO20220509 [in Russian].
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10. Ignatov R. Yu., Rubinshtein K. G., Yusupov Yu. I. Forecast of the maximum thickness of ice deposits. P. 408–413
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Ignatov R. Yu., Rubinshtein K. G., Yusupov Yu. I. Forecast of the maximum thickness of ice deposits. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 408–413. DOI: 10.15372/AOO20220510 [in Russian].
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Ignatov R.Yu., Rubinshtein K.G. and Yusupov Yu.I. Forecasting the Maximum Thickness of Ice Accretions // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 541–549.
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11. Nevzorov A. A., Nevzorov A. V., Nadeev A. I., Zaitsev N. G., Romanovskii Ya. O. Algorithm for a control of ozone lidar’s photon counter. P. 414–419
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Nevzorov A. A., Nevzorov A. V., Nadeev A. I., Zaitsev N. G., Romanovskii Ya. O. Algorithm for a control of ozone lidar’s photon counter. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 414–419. DOI: 10.15372/AOO20220511 [in Russian].
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Nevzorov A.A., Nevzorov A.V., Nadeev A.I., Zaitsev N.G. and Romanovskii Ya.O. Algorithm for Control of an Ozone Lidar Photon Counter // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 569–575.
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12. Gerasimov V. V. Errors of pure rotational Raman lidar absolute calibration due to collisional line broadening. P. 420–426
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Gerasimov V. V. Errors of pure rotational Raman lidar absolute calibration due to collisional line broadening. // Optika Atmosfery i Okeana. 2022. V. 35. No. 05. P. 420–426. DOI: 10.15372/AOO20220512 [in Russian].
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Gerasimov V.V. Errors of Pure Rotational Raman Lidar Absolute Calibration Due to Collisional Line Broadening // Atmospheric and Oceanic Optics, 2022, V. 35. No. 05. pp. 576–583.
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