Content of issue 03, volume 32, 2019

  1. Simonova A.A., Ptashnik I.V. Contribution of the errors in line parameters to retrieval of the water vapor continuum absorption within 0.94 and 1.13 mm bands. P. 175–177
    Bibliographic reference:
    Simonova A.A., Ptashnik I.V. Contribution of the errors in line parameters to retrieval of the water vapor continuum absorption within 0.94 and 1.13 mm bands. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 175–177 [in Russian].
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    Simonova A.A. and Ptashnik I.V. Contribution of Errors in Line Parameters to the Retrieval of the Vapor Continuum Absorption within 0.94- and 1.13-µm Bands // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 375–377.
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  2. Sinitsa L.N., Shcherbakov A.P., Bykov A.D. Automatic analysis of Fourier transform spectra using algorithms for image recognition. P. 178–185
    Bibliographic reference:
    Sinitsa L.N., Shcherbakov A.P., Bykov A.D. Automatic analysis of Fourier transform spectra using algorithms for image recognition. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 178–185 [in Russian].
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  3. Shishko V.A., Bryukhanov I.D., Nie E.V., Kustova N.V., Timofeev D.N., Konoshonkin A.V. Algorithm of retrieving microphysical properties of cirrus clouds from Mueller matrices. P. 186–192
    Bibliographic reference:
    Shishko V.A., Bryukhanov I.D., Nie E.V., Kustova N.V., Timofeev D.N., Konoshonkin A.V. Algorithm of retrieving microphysical properties of cirrus clouds from Mueller matrices. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 186–192 [in Russian].
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    Shishko V.A., Bryukhanov I.D., Nie E.V., Kustova N.V., Timofeev D.N. and Konoshonkin A.V. Algorithm for Interpreting Light Backscattering Matrices of Cirrus Clouds for the Retrieval of Their Microphysical Parameters // Atmospheric and Oceanic Optics, 2019, V. 32. No. 4 pp. 393–399.
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  4. Samokhvalov I.V., Bryukhanov I.D., Shishko V.A., Kustova N.V., Nie E.V., Konoshonkin A.V., Loktushin O.Ju., Timofeev D.N. Estimation of microphysical characteristics of contrails from polarization lidar data: Theory and experiment. P. 193–201
    Bibliographic reference:
    Samokhvalov I.V., Bryukhanov I.D., Shishko V.A., Kustova N.V., Nie E.V., Konoshonkin A.V., Loktushin O.Ju., Timofeev D.N. Estimation of microphysical characteristics of contrails from polarization lidar data: Theory and experiment. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 193–201 [in Russian].
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    Samokhvalov I.V., Bryukhanov I.D., Shishko V.A., Kustova N.V., Nie E.V., Konoshonkin A.V., Loktyushin O.Yu. and Timofeev D.N. Estimation of Microphysical Characteristics of Contrails by Polarization Lidar Data: Theory and Experiment // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 400–409.
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  5. Mikhalev A.V., Tashchilin M.A., Sakerin S.M. Effect of atmospheric aerosol on the ground-based observation results of the upper atmosphere radiation. P. 202–207
    Bibliographic reference:
    Mikhalev A.V., Tashchilin M.A., Sakerin S.M. Effect of atmospheric aerosol on the ground-based observation results of the upper atmosphere radiation. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 202–207 [in Russian].
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    Mikhalev A.V., Tashchilin M.A. and Sakerin S.M. Effect of Atmospheric Aerosol on Ground-Based Airglow Observations // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 410–415.
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  6. Mankovsky V.I. Evaluation of absorption coefficient of conservative yellow substance from the regression between hydrooptical characteristics (a version). P. 208–211
    Bibliographic reference:
    Mankovsky V.I. Evaluation of absorption coefficient of conservative yellow substance from the regression between hydrooptical characteristics (a version). // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 208–211 [in Russian].
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    Mankovskiy V.I. Estimation of the Absorption Coefficient of a Conservative Yellow Substance from Correlations between Hydrooptical Characteristics (a Version) // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 416–419.
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  7. Gladkikh V.A., Nevzorova I.V., Odintsov S.L. Statistics of outer turbulence scales in the surface air layer. P. 212–220
    Bibliographic reference:
    Gladkikh V.A., Nevzorova I.V., Odintsov S.L. Statistics of outer turbulence scales in the surface air layer. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 212–220 [in Russian].
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    Gladkikh V.A., Nevzorova I.V. and Odintsov S.L. Statistics of Outer Turbulence Scales in the Surface Air Layer // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 450–458.
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  8. Аntokhin P.N., Antokhina O.Yu., Arshinov M.Yu., Belan B.D., Davydov D.K., Kozlov A.V., Fofonov A.V., Sasakawa Motoki., Machida Toshinobu. The impact of atmospheric blocking in Western Siberia on changes in carbon dioxide and methane concentrations in winter. P. 221–227
    Bibliographic reference:
    Аntokhin P.N., Antokhina O.Yu., Arshinov M.Yu., Belan B.D., Davydov D.K., Kozlov A.V., Fofonov A.V., Sasakawa Motoki., Machida Toshinobu. The impact of atmospheric blocking in Western Siberia on changes in carbon dioxide and methane concentrations in winter. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 221–227 [in Russian].
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  9. Nosov V.V., Lukin V.P., Nosov E.V., Torgaev A.V. The turbulence formation at Astronomical observatories of the Southern Siberia and the North Caucasus. P. 228–246
    Bibliographic reference:
    Nosov V.V., Lukin V.P., Nosov E.V., Torgaev A.V. The turbulence formation at Astronomical observatories of the Southern Siberia and the North Caucasus. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 228–246 [in Russian].
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    Nosov V.V., Lukin V.P., Nosov E.V. and Torgaev A.V. Formation of Turbulence at Astronomical Observatories in Southern Siberia and North Caucasus // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 464–482.
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  10. Vasnev N.A., Trigub M.V., Evtushenko G.S. Operation features of a brightness amplifier in the bistatic scheme of a laser monitor. P. 247–253
    Bibliographic reference:
    Vasnev N.A., Trigub M.V., Evtushenko G.S. Operation features of a brightness amplifier in the bistatic scheme of a laser monitor. // Optika Atmosfery i Okeana. 2019. V. 32. No. 03. P. 247–253 [in Russian].
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    Vasnev N.A., Trigub M.V. and Evtushenko G.S. Features of Operation of a Brightness Amplifier on Copper Bromide Vapors in the Bistatic Scheme of a Laser Monitor // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 483–?.
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  11. Information. P. 254