Content of issue 05, volume 32, 2019

  1. Geints Yu.E., Zemlyanov A.A., Minina O.V. Simulation of femtosecond laser pulses self-focusing with normal dispersion in air by the method of diffraction-beam tubes. P. 337–345
    Bibliographic reference:
    Geints Yu.E., Zemlyanov A.A., Minina O.V. Simulation of femtosecond laser pulses self-focusing with normal dispersion in air by the method of diffraction-beam tubes. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 337–345 [in Russian].
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    Bibliographic reference to english version:
    Geints  Yu.E., Zemlyanov A.A. and Minina O.V. Simulation of Self-Focusing of Femtosecond Laser Pulses in Air by the Method of Diffraction-Beam Tubes // Atmospheric and Oceanic Optics, 2019, V. 32. No. 04. pp. 420–419.
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  2. Sulakshina O.N., Borkov Yu.G. Critical evaluation of measured transition frequencies of the 16OH molecule in the X2П state using the Ritz principle. P. 346–357
    Bibliographic reference:
    Sulakshina O.N., Borkov Yu.G. Critical evaluation of measured transition frequencies of the 16OH molecule in the X2П state using the Ritz principle. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 346–357 [in Russian].
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  3. Dеichuli V.M., Petrova T.M., Ponomarev Yu.N., Solodov A.M., Solodov A.A. Broadening and shift coefficients of water vapor absorption lines in 8650–9020 cm–1 spectral region. P. 358–364
    Bibliographic reference:
    Dеichuli V.M., Petrova T.M., Ponomarev Yu.N., Solodov A.M., Solodov A.A. Broadening and shift coefficients of water vapor absorption lines in 8650–9020 cm–1 spectral region. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 358–364 [in Russian].
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  4. Afanas'ev A.L., Banakh V.A., Marakasov D.A. Monitoring of wind conditions and indication of wake tracks in the area of the airport runway by the passive optical method. P. 365–370
    Bibliographic reference:
    Afanas'ev A.L., Banakh V.A., Marakasov D.A. Monitoring of wind conditions and indication of wake tracks in the area of the airport runway by the passive optical method. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 365–370 [in Russian].
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  5. Banakh V.A., Falits A.V., Zaloznaya I.V. Amplification of the mean power of the echo signal of a spatially limited laser beam in a turbulent atmosphere. P. 371–375
    Bibliographic reference:
    Banakh V.A., Falits A.V., Zaloznaya I.V. Amplification of the mean power of the echo signal of a spatially limited laser beam in a turbulent atmosphere. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 371–375 [in Russian].
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  6. Filei A.A. Determination of cloud phase using MSU-MR measurements on-board Meteor-M N 2. P. 376–380
    Bibliographic reference:
    Filei A.A. Determination of cloud phase using MSU-MR measurements on-board Meteor-M N 2. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 376–380 [in Russian].
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  7. Timofeev D.N., Konoshonkin A.V., Kustova N.V., Shishko V.A., Borovoy A.G. Influence of absorption on light scattering on atmospheric ice crystals for wavelengths typical to lidar sounding. P. 381–385
    Bibliographic reference:
    Timofeev D.N., Konoshonkin A.V., Kustova N.V., Shishko V.A., Borovoy A.G. Influence of absorption on light scattering on atmospheric ice crystals for wavelengths typical to lidar sounding. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 381–385 [in Russian].
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  8. Biryukov E.Yu., Kostsov V.S. Application of linear regression methods based on model and experimental data to the retrieval of cloud liquid water path from ground-based microwave measurements. P. 386–394
    Bibliographic reference:
    Biryukov E.Yu., Kostsov V.S. Application of linear regression methods based on model and experimental data to the retrieval of cloud liquid water path from ground-based microwave measurements. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 386–394 [in Russian].
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  9. Belan B.D., Savkin D.E. The role of air humidity in variations in the surface ozone concentration. P. 395–398
    Bibliographic reference:
    Belan B.D., Savkin D.E. The role of air humidity in variations in the surface ozone concentration. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 395–398 [in Russian].
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  10. Akhmedzhanov A.Kh., Akhmetov N.D., Karadanov T.K. Variability of atmospheric SO2 over Kazakhstan according to ground-based and satellite measurements. P. 399–403
    Bibliographic reference:
    Akhmedzhanov A.Kh., Akhmetov N.D., Karadanov T.K. Variability of atmospheric SO2 over Kazakhstan according to ground-based and satellite measurements. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 399–403 [in Russian].
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  11. Lukin V.P., Botygina N.N., Antoshkin L.V., Borzilov A.G., Emaleev O.N., Konyaev P.A., Kovadlo P.G., Kolobov D.Yu., Selin A.A., Soin E.L., Shikhovtsev A.Yu., Chuprakov S.A. Multi-cascading image correction system for a Large Solar Vacuum Telescope. P. 404–413
    Bibliographic reference:
    Lukin V.P., Botygina N.N., Antoshkin L.V., Borzilov A.G., Emaleev O.N., Konyaev P.A., Kovadlo P.G., Kolobov D.Yu., Selin A.A., Soin E.L., Shikhovtsev A.Yu., Chuprakov S.A. Multi-cascading image correction system for a Large Solar Vacuum Telescope. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 404–413 [in Russian].
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  12. Kuznetsov V.S., Tarasenko V.F., Panarin V.A., Skakun V.S., Sosnin E.A., Baksht E.H. The initial stage of the diffuse jet formation in a pulsed discharge with a non-uniform electric field in air. P. 414–418
    Bibliographic reference:
    Kuznetsov V.S., Tarasenko V.F., Panarin V.A., Skakun V.S., Sosnin E.A., Baksht E.H. The initial stage of the diffuse jet formation in a pulsed discharge with a non-uniform electric field in air. // Optika Atmosfery i Okeana. 2019. V. 32. No. 05. P. 414–418 [in Russian].
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