Content of issue 09, volume 27, 2014

  1. Perevalov V.I., Lukashevskaya A.A. Parameterization of the effective dipole moment matrix elements in the case of asymmetric top molecules. Application to NO2 molecule. P. 759-765
    Bibliographic reference:
    Perevalov V.I., Lukashevskaya A.A. Parameterization of the effective dipole moment matrix elements in the case of asymmetric top molecules. Application to NO2 molecule. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 759-765 [in Russian].
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    Bibliographic reference to english version:
    Perevalov V.I. and Lukashevskaya A.A. Parameterization of the Effective Dipole Moment Matrix Elements in the Case of the Asymmetric Top Molecules. Application to NO2 Molecule. // Atmospheric and Oceanic Optics, 2015, V. 28. No. 01. pp. 17–23.
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  2. Arshinov M.Yu., Belan B.D., Davydov D.K., Ivlev G.A., Kozlov A.V., Kozlov A.S., Malyshkin S.B., Simonenkov D.V., Аntokhin P.N. Nucleation bursts in the atmosphere over boreal zone in West Siberia. Part I. Classification and frequency. P. 766-774
    Bibliographic reference:
    Arshinov M.Yu., Belan B.D., Davydov D.K., Ivlev G.A., Kozlov A.V., Kozlov A.S., Malyshkin S.B., Simonenkov D.V., Аntokhin P.N. Nucleation bursts in the atmosphere over boreal zone in West Siberia. Part I. Classification and frequency. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 766-774 [in Russian].
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  3. Pol'kin V.V., Panchenko M.V., Uzhegov V.N., Pol'kin Vas.V., Terpugova S.A. On medium-sized particles in the ground aerosol during the winter–spring chan. P. 775-781
    Bibliographic reference:
    Pol'kin V.V., Panchenko M.V., Uzhegov V.N., Pol'kin Vas.V., Terpugova S.A. On medium-sized particles in the ground aerosol during the winter–spring chan. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 775-781 [in Russian].
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    Polkin V.V., Panchenko M.V., Uzhegov V.N., Polkin Vas.V., and Terpugova S.A. Medium-Size Surface Aerosols during Winter–Spring Transitions. // Atmospheric and Oceanic Optics, 2015, V. 28. No. 01. pp. 43–48.
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  4. Banakh V.A., Zaloznaya I.V. Atmospheric backscatter of a short optical pulse. P. 782-789
    Bibliographic reference:
    Banakh V.A., Zaloznaya I.V. Atmospheric backscatter of a short optical pulse. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 782-789 [in Russian].
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  5. Ermolov Yu.V., Makhatkov I.D., Khudyaev S.A. Background concentration of chemical elements in snow cover of the typical regions of the Western Siberia. P. 790-800
    Bibliographic reference:
    Ermolov Yu.V., Makhatkov I.D., Khudyaev S.A. Background concentration of chemical elements in snow cover of the typical regions of the Western Siberia. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 790-800 [in Russian].
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  6. Sutorikhin I.A., Bukatyi V.I., Akulova O.B. Seasonal changes of water spectral transparency and concentration of chlorophyll a in different-type lakes. P. 801-806
    Bibliographic reference:
    Sutorikhin I.A., Bukatyi V.I., Akulova O.B. Seasonal changes of water spectral transparency and concentration of chlorophyll a in different-type lakes. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 801-806 [in Russian].
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  7. Burnashov A.V., Konoshonkin A.V. Scattering of the light on bullet and droxtal ice crystals of cirrus clouds preferably oriented in a horizontal plane with zenith flutter. P. 807-811
    Bibliographic reference:
    Burnashov A.V., Konoshonkin A.V. Scattering of the light on bullet and droxtal ice crystals of cirrus clouds preferably oriented in a horizontal plane with zenith flutter. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 807-811 [in Russian].
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  8. Kamardin A.P., Odintsov S.L., Skorokhodov A.V. Identification of internal gravity waves in the atmospheric boundary layer from sodar data. P. 812-818
    Bibliographic reference:
    Kamardin A.P., Odintsov S.L., Skorokhodov A.V. Identification of internal gravity waves in the atmospheric boundary layer from sodar data. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 812-818 [in Russian].
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  9. Rokotyan N.V., Imasu R., Zakharov V.I., Gribanov K.G., Khamatnurova M.Yu. The amplitude of the CO2 seasonal cycle in the atmosphere of Ural by ground-based and satellite remote sensing techniques. P. 819-825
    Bibliographic reference:
    Rokotyan N.V., Imasu R., Zakharov V.I., Gribanov K.G., Khamatnurova M.Yu. The amplitude of the CO2 seasonal cycle in the atmosphere of Ural by ground-based and satellite remote sensing techniques. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 819-825 [in Russian].
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    Bibliographic reference to english version:
    Rokotyan N.V., Imasu. R. Zakharov V.I., Gribanov K.G., and Khamatnurova M.Yu. The Amplitude of the CO2 Seasonal Cycle in the Atmosphere of the Ural Region Retrieved from Ground-Based and Satellite Near-IR Measurements. // Atmospheric and Oceanic Optics, 2015, V. 28. No. 01. pp. 49–55.
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  10. Kashkin V.B., Rubleva T.V. Estimation of zonal movement of ozone mass in the lower stratosphere based on satellite data. P. 826-832
    Bibliographic reference:
    Kashkin V.B., Rubleva T.V. Estimation of zonal movement of ozone mass in the lower stratosphere based on satellite data. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 826-832 [in Russian].
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  11. Skvortsov V.A., Chudnenko K.V. Thermodynamical model of the emission greenhouse gases in the atmosphere and change of climate. P. 833-840
    Bibliographic reference:
    Skvortsov V.A., Chudnenko K.V. Thermodynamical model of the emission greenhouse gases in the atmosphere and change of climate. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 833-840 [in Russian].
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    Bibliographic reference to english version:
    Skvortsov V.A. and Chudnenko K.V. Thermodynamic Model of Greenhouse Gas Emission in the Atmosphere and Climate Change. // Atmospheric and Oceanic Optics, 2015, V. 28. No. 01. pp. 56–63.
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  12. Banakh V.A., Smalikho I.N., Rahm S. Estimation of the structure characteristics of refractive index of air from a coherent Doppler wind lidar data. P. 841-845
    Bibliographic reference:
    Banakh V.A., Smalikho I.N., Rahm S. Estimation of the structure characteristics of refractive index of air from a coherent Doppler wind lidar data. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 841-845 [in Russian].
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  13. Zuev S.V., Gochakov A.V., Krasnenko N.P., Kolker A.B. Application of RGB- and wavelet methods for instrumental determination of total cloudin. P. 846-848
    Bibliographic reference:
    Zuev S.V., Gochakov A.V., Krasnenko N.P., Kolker A.B. Application of RGB- and wavelet methods for instrumental determination of total cloudin. // Optika Atmosfery i Okeana. 2014. V. 27. No. 09. P. 846-848 [in Russian].
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