Content of issue 03, volume 30, 2017

1. Arshinov K. I., Krapivnaya O. N., Nevdakh V. V. The self-broadening coefficients and spontaneus emission probability of the CO2 1000–0001 transition lines. P. 193–197
Bibliographic reference:
Arshinov K. I., Krapivnaya O. N., Nevdakh V. V. The self-broadening coefficients and spontaneus emission probability of the CO2 1000–0001 transition lines. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 193–197. DOI: 10.15372/AOO20170301 [in Russian].
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Arshinov K.I., Krapivnaya O.N. and Nevdakh V.V. Collisional Self-Broadening Coefficients and Probabilities of Spontaneous Emission of the CO2 1000–0001 Transition Lines. // Atmospheric and Oceanic Optics, 2017, V. 30. No. 04. pp. 311–315.
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2. Ivanov N. G., Losev V. F. Kerr nonlinearity effect on femtosecond radiation pulse filamentation in air. P. 198–203
Bibliographic reference:
Ivanov N. G., Losev V. F. Kerr nonlinearity effect on femtosecond radiation pulse filamentation in air. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 198–203. DOI: 10.15372/AOO20170302 [in Russian].
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Ivanov N.G. and Losev V.F. Kerr Nonlinearity Effect on Femtosecond Pulse Radiation Filamentation in Air. // Atmospheric and Oceanic Optics, 2017, V. 30. No. 04. pp. 331–336.
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3. Ageev B. G., Klimkin A. V., Kuryak A. N., Osipov K. Yu., Ponomarev Yu. N. Remote detector of hazardous substances based on a tunable 13С16О2 laser. P. 204–208
Bibliographic reference:
Ageev B. G., Klimkin A. V., Kuryak A. N., Osipov K. Yu., Ponomarev Yu. N. Remote detector of hazardous substances based on a tunable 13С16О2 laser. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 204–208. DOI: 10.15372/AOO20170303 [in Russian].
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Ageev B.G., Klimkin A.V., Kuryak A.N., Osipov K.O. and Ponomarev Yu.N. Remote Detector of Hazardous Substances Based on a Tunable 13С16О2 Laser. // Atmospheric and Oceanic Optics, 2017, V. 30. No. 04. pp. 337–341.
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4. Bychkov V. V., Seredkin I. N., Perezhogin A. S., Shevtsov B. M., Marichev V. N. Lidar investigations of the resonance scattering of the atmosphere on exited ions of atomic nitrogen and oxygen. P. 209–213
Bibliographic reference:
Bychkov V. V., Seredkin I. N., Perezhogin A. S., Shevtsov B. M., Marichev V. N. Lidar investigations of the resonance scattering of the atmosphere on exited ions of atomic nitrogen and oxygen. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 209–213. DOI: 10.15372/AOO20170304 [in Russian].
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5. Sitnov S. A., Mokhov I. I., Dzhola A. V. Variations of carbon monoxide in the atmosphere during the atmospheric blocking event over European Russia in summer of 2010 (according to AIRS data). P. 214–221
Bibliographic reference:
Sitnov S. A., Mokhov I. I., Dzhola A. V. Variations of carbon monoxide in the atmosphere during the atmospheric blocking event over European Russia in summer of 2010 (according to AIRS data). // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 214–221. DOI: 10.15372/AOO20170305 [in Russian].
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6. Aloyan A. E., Arutyunyan V. O., Еrmakov A. N. Mathematical modeling of convective cloudiness in polar regions. P. 222–226
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Aloyan A. E., Arutyunyan V. O., Еrmakov A. N. Mathematical modeling of convective cloudiness in polar regions. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 222–226. DOI: 10.15372/AOO20170306 [in Russian].
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7. Karpov A. V., Gushchin R. A., Dazenko O. I. The analysis of variations in the saltating sand transfer velocity. P. 227–232
Bibliographic reference:
Karpov A. V., Gushchin R. A., Dazenko O. I. The analysis of variations in the saltating sand transfer velocity. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 227–232. DOI: 10.15372/AOO20170307 [in Russian].
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Karpov A.V., Gushchin R.A. and Datsenko O.I. Analysis of Variations in the Saltating Sand Grain Transport Velocity. // Atmospheric and Oceanic Optics, 2017, V. 30. No. 05. pp. 456–461.
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8. Kosarev N. I. Resonance scattering of solar radiation by a freely expandind atomic cloud. P. 233–236
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Kosarev N. I. Resonance scattering of solar radiation by a freely expandind atomic cloud. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 233–236. DOI: 10.15372/AOO20170308 [in Russian].
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9. Polishchuk V. Yu. The analysis of a correlation between climate change and thermocarst processes in the permafrost zone of Western Siberia. P. 237–242
Bibliographic reference:
Polishchuk V. Yu. The analysis of a correlation between climate change and thermocarst processes in the permafrost zone of Western Siberia. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 237–242. DOI: 10.15372/AOO20170309 [in Russian].
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10. Panarin V. A., Skakun V. S., Sosnin E. A., Tarasenko V. F. Laboratory simulation of blue and red diffuse minijets in air environment. P. 243–252
Bibliographic reference:
Panarin V. A., Skakun V. S., Sosnin E. A., Tarasenko V. F. Laboratory simulation of blue and red diffuse minijets in air environment. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 243–252. DOI: 10.15372/AOO20170310 [in Russian].
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11. Troitskii V. O., Sokovikov V. G., Filonov A. G., Shiyanov D. V. Europium vapor laser. P. 253–258
Bibliographic reference:
Troitskii V. O., Sokovikov V. G., Filonov A. G., Shiyanov D. V. Europium vapor laser. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 253–258. DOI: 10.15372/AOO20170311 [in Russian].
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Troitskii V.O., Sokovikov V.G., Filonov A.G. and Shiyanov D.V. Europium Vapor Laser. // Atmospheric and Oceanic Optics, 2017, V. 30. No. 05. pp. 489–494.
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12. Vasnev N. A., Trigub M. V., Troitskii V. O., Dimaki V. A. Recovery of steady-state lasing in CuBr laser. P. 259–263
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Vasnev N. A., Trigub M. V., Troitskii V. O., Dimaki V. A. Recovery of steady-state lasing in CuBr laser. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 259–263. DOI: 10.15372/AOO20170312 [in Russian].
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13. Fedorov A. I., Shiyanov D. V. High-efficiency double-pulsed CuBr laser. P. 264–266
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Fedorov A. I., Shiyanov D. V. High-efficiency double-pulsed CuBr laser. // Optika Atmosfery i Okeana. 2017. V. 30. No. 03. P. 264–266. DOI: 10.15372/AOO20170313 [in Russian].
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