Content of issue 10, volume 31, 2018

1. Mingalev I. V., Fedotova E. A., Orlov K. G. Construction of the parameterization of the molecular absorption in the lower and middle atmosphere of the Earth in the infrared range. P. 779–786
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Mingalev I. V., Fedotova E. A., Orlov K. G. Construction of the parameterization of the molecular absorption in the lower and middle atmosphere of the Earth in the infrared range. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 779–786. DOI: 10.15372/AOO20181001 [in Russian].
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Mingalev I.V., Fedotova E.A. and Orlov K.G. Parameterization of the Infrared Molecular Absorption in the Earth’s Lower and Middle Atmosphere // Atmospheric and Oceanic Optics, 2018, V. 31. No. 06. pp. 582–589.
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2. Sinitsa L. N., Serdyukov V. I., Polovtseva E. R., Bykov A. D. LED-based Fourier-transform spectroscopy: absorption spectrum of HD16O in the region of 0.6 mm. P. 787–790
Bibliographic reference:
Sinitsa L. N., Serdyukov V. I., Polovtseva E. R., Bykov A. D. LED-based Fourier-transform spectroscopy: absorption spectrum of HD16O in the region of 0.6 mm. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 787–790. DOI: 10.15372/AOO20181002 [in Russian].
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Sinitsa L.N., Serdyukov V.I., Polovtseva E.R. and Bykov A.D. LED-Based Fourier-Transform Spectroscopy: HD16O Absorption Spectrum in 0.6-μm Spectral Region // Atmospheric and Oceanic Optics, 2019, V. 32. No. 02. pp. 124–127.
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3. Kuryak A. N., Tikhomirov B. A. The influence of water vapor on 266 nm radiation absorption by aluminum optical mirror. P. 791–793
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Kuryak A. N., Tikhomirov B. A. The influence of water vapor on 266 nm radiation absorption by aluminum optical mirror. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 791–793. DOI: 10.15372/AOO20181003 [in Russian].
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4. Sosnin E. A., Naidis G. V., Tarasenko V. F., Babaeva N. Yu., Panarin V. A., Skakun V. S. The ratio of the intensities of 2P and 1P molecular nitrogen bands in apokamp discharge at different air pressures. P. 794–797
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Sosnin E. A., Naidis G. V., Tarasenko V. F., Babaeva N. Yu., Panarin V. A., Skakun V. S. The ratio of the intensities of 2P and 1P molecular nitrogen bands in apokamp discharge at different air pressures. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 794–797. DOI: 10.15372/AOO20181004 [in Russian].
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5. Odintsov S. L., Gladkikh V. A., Kamardin A. P., Mamyshev V. P., Nevzorova I. V. Assessment of the influence of turbulence and regular refraction on laser beam characteristics in the atmospheric boundary layer. Part 2. Laser beam broadening at strong regular refraction. P. 798–804
Bibliographic reference:
Odintsov S. L., Gladkikh V. A., Kamardin A. P., Mamyshev V. P., Nevzorova I. V. Assessment of the influence of turbulence and regular refraction on laser beam characteristics in the atmospheric boundary layer. Part 2. Laser beam broadening at strong regular refraction. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 798–804. DOI: 10.15372/AOO20181005 [in Russian].
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Odintsov S.L., Gladkikh V.A., Kamardin A.P., Mamyshev V.P. and Nevzorova I.V. Estimation of the Turbulence and Regular Refraction Effect on Laser Beam Parameters in the Atmospheric Boundary Layer: Part 2, Laser Beam Broadening under Strong Regular Refraction // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 26–32.
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6. Korshunov V. A., Merzlyakov E. G., Yudakov A. A. Aerosol observations in the upper stratosphere – lower mesosphere by the method of two wavelength lidar sensing. P. 805–814
Bibliographic reference:
Korshunov V. A., Merzlyakov E. G., Yudakov A. A. Aerosol observations in the upper stratosphere – lower mesosphere by the method of two wavelength lidar sensing. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 805–814. DOI: 10.15372/AOO20181006 [in Russian].
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Korshunov V.A., MerzlyakovE.G. and YudakovA.A. Observations of Meteoric Aerosol in the Upper Stratosphere–Lower Mesosphere by the Method of Two-Wavelength Lidar Sensing // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 45–54.
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7. Stephan A., Wildmann N., Smalikho I. N. Measurements of wind turbulence parameters by a Windcube 200s lidar in the atmospheric boundary layer. P. 815–820
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Stephan A., Wildmann N., Smalikho I. N. Measurements of wind turbulence parameters by a Windcube 200s lidar in the atmospheric boundary layer. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 815–820. DOI: 10.15372/AOO20181007 [in Russian].
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8. Soldatenko S. A., Yusupov R. M. Optimal control of artificial sulfate aerosols usage to mitigate global warming. P. 821–828
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Soldatenko S. A., Yusupov R. M. Optimal control of artificial sulfate aerosols usage to mitigate global warming. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 821–828. DOI: 10.15372/AOO20181008 [in Russian].
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Soldatenko S.A. and Yusupov R.M. Optimal Control for the Process of Using Artificial Sulfate Aerosols for Mitigating Global Warming // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 55–63.
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9. Elansky N. F., Shilkin A. V., Semutnikova E. G., Zakharova P. V., Rakitin V. S., Ponomarev N. A., Verevkin Y. M. The weekly cycle of pollutant concentrations in the surface air above Moscow. P. 829–836
Bibliographic reference:
Elansky N. F., Shilkin A. V., Semutnikova E. G., Zakharova P. V., Rakitin V. S., Ponomarev N. A., Verevkin Y. M. The weekly cycle of pollutant concentrations in the surface air above Moscow. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 829–836. DOI: 10.15372/AOO20181009 [in Russian].
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Elansky N.F., Shilkin A.V., Semutnikova E.G., Zaharova P.V., Rakitin V.S., Ponomarev N.A. and Verevkin Y.M. Weekly Cycle of Pollutant Concentrations in Near-Surface Air over Moscow // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 85–93.
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10. Vinogradova A. A., Titkova T. B., Ivanova Yu. A. Passages of anomalies in black carbon surface air concentration at Tiksi station, Yakutiya. P. 837–844
Bibliographic reference:
Vinogradova A. A., Titkova T. B., Ivanova Yu. A. Passages of anomalies in black carbon surface air concentration at Tiksi station, Yakutiya. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 837–844. DOI: 10.15372/AOO20181010 [in Russian].
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Vinogradova A.A., Titkova T.B. and Ivanova Yu.A. Episodes with Anomalously High Black Carbon Concentration in Surface Air in the Region of Tiksi Station, Yakutiya // Atmospheric and Oceanic Optics, 2019, V. 32. No. 01. pp. 94–102.
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11. Davydov D. K., Belan B. D., Аntokhin P. N., Antokhina O. Yu., Antonovich V. V., Arshinova V. G., Arshinov M. Yu., Akhlyostin A. Yu., Belan S. B., Dudorova N. V., Ivlev G. A., Kozlov A. V., Pestunov D. A., Rasskazchikova T. M., Savkin D. E., Simonenkov D. V., Sklyadneva T. K., Tolmachev G. N., Fazliev A. Z., Fofonov A. V. Monitoring of atmospheric parameters: 25 years of observations at the TOR station of IAO SB RAS. P. 845–853
Bibliographic reference:
Davydov D. K., Belan B. D., Аntokhin P. N., Antokhina O. Yu., Antonovich V. V., Arshinova V. G., Arshinov M. Yu., Akhlyostin A. Yu., Belan S. B., Dudorova N. V., Ivlev G. A., Kozlov A. V., Pestunov D. A., Rasskazchikova T. M., Savkin D. E., Simonenkov D. V., Sklyadneva T. K., Tolmachev G. N., Fazliev A. Z., Fofonov A. V. Monitoring of atmospheric parameters: 25 years of observations at the TOR station of IAO SB RAS. // Optika Atmosfery i Okeana. 2018. V. 31. No. 10. P. 845–853. DOI: 10.15372/AOO20181011 [in Russian].
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Davydov D.K., Belan B.D., Antokhin P.N., Antokhina O.Yu., Antonovich V.V., Arshinova V.G., Arshinov M.Yu., Akhlestin A.Yu., Belan S.B., Dudorova N.V., Ivlev G.A., Kozlov A.V., Pestunov D.A., Rasskazchikova T.M., Savkin D.E., Simonenkov D.V., Sklyadneva T.K., Tolmachev G.N., Fazliev A.Z. and Fofonov A.V. Monitoring of Atmospheric Parameters: 25 Years of the Tropospheric Ozone Research Station of the Institute of Atmospheric Optics, Siberian Branch, Russian Academy of Sciences // Atmospheric and Oceanic Optics, 2019, V. 32. No. 02. pp. 180–192.
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