Source: http://ao.iao.ru/en/content/vol.5-1992/iss.11
Timestamp: 2019-04-20 12:13:24+00:00

Document:
Gusev V.G. Formation of the lateral shear interferograms with diffusely scattered light fields based on three-exposure recording of a lens Fourier hologram. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 725-727.
Bykov A.D., Lavrent'eva N.N., Sinitsa L.N. Resonance functions of the theory of broadening and shift of lines for actual trajectories. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 728-730.
Kochanov V.P. Oscillations in a pulse of resonance fluorescence initiated by a smooth pulse of nonsaturating radiation. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 731-734.
Belinskii A.V., Dubenskaya M.G., Podshivalov A.A. Time and energy characteristics of an atomic resonance fluorescence filter. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 735-738.
Bukatyi V.I., Lyamkina G.V., Shaiduk A.M. Propagation of high-power laser radiation in a monodisperse sol in vacuum. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 739-740.
Malafeeva I.V., Chesnokov S.S. Efficiency of adaptive correction for a nonstationary wind refraction depending on the control basis. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 741-743.
Mishin I.V. Reconstruction of the surface reflectance from measurement data. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 744-750.
Ivanenko B.P., Gobrusenko K.I. Complex approach to remote thermal sensing of the atmosphere. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 751-754.
Belov M.L. On lidar return power from a randomly rough surface with a combined scattering phase function being sounded through the atmosphere. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 755-757.
Belov M.L. On the power of return signals from a randomly rough surface with a combined local reflectance being sounded along a slant path in the atmosphere. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 758-760.
Zhiliba A.I. Signal-to-noise ratio in a coherent lidar with an intracavity detection of return signals using an Nd3+:YAG laser. Theory. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 761-763.
Chikurov V.A. On spatial resolution of a TV photon counter. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 764766.
Oshlakov V.G. Optimal measurer of the scattering phase matrix. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 767-769.
Ivlev L.S., Kondratyev K.Ya., Korostina O.M. Numerical modeling of optical properties of cloud particles of complex composition. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 770-776.
Krekov G.M., Krekova M.M., Shamanaev V.S. Numerical estimates of the atmospheric influence on the signal shape in sensing sea water. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 777-779.
Bukin O.A., Zinin Yu.A., Sviridenkov E.A., Sushilov N.V., Eduardov S.L. Determination of sea water macrocomposition by the method of laser spark spectroscopy. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 780-782.
Ippolitov I.I. The conditions of stationarity of the absorption coefficient under optical pulse propagation through a double-level medium. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 783-786.
Kochanov V.P. Spectrum of stationary fluorescence excitation by nonmonochromatic radiation during the transition from a split ground state. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 787-792.
Minervin N.N., Golodnyi A.Yu., Ivanov S.M., Gushcha S.N. The effect of the phase fluctuation distribution law on the type of algorithm of optimal measuring of an angular coordinate. // Atmospheric and oceanic optics. 1992. V. 5. No. 11. P. 793-794.

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