Search Results - "Razenkov, I. A."

Sounding of Kelvin–Helmholtz Waves by a Turbulent Lidar: I–BSE-4 Lidar by Razenkov, I. A.

“…Atmospheric waves are of increased interest in connection with exchange processes occurring in the atmospheric boundary layer. Experimental results of sounding…”
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Engineering and Technical Solutions When Designing a Turbulent Lidar by Razenkov, I. A.

“…Design characteristics of a turbulent lidar, which affect its thermo-mechanical stability, are determined. Two different designs are compared with different…”
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A Heuristic Approach to Defining the Structure Parameter of the Refractive Index of the Atmosphere from Turbulent Lidar Data by Razenkov, I. A.

“…Applicability of the existing theoretical approach to solving the inverse problem of retrieving optical turbulence parameters from lidar data is experimentally…”
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Comparison between Turbulent Lidar Data and Meteorological Measurements by Razenkov, I. A.

“…The turbulence parameters received with the use of a lidar are compared with the parameters derived from the average values of wind speed and air temperature…”
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Capabilities of a Turbulent BSE-Lidar for the Study of the Atmospheric Boundary Layer by Razenkov, I. A.

“…In order to study the capabilities of a turbulent lidar, an experiment was carried out with a BSE-4 system, a meteorological measuring system, and an MTP-5…”
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Experimental Estimation of the Backscatter Enhancement Peak by Razenkov, I. A.

“…The intensity distribution of scattered radiation over the transmitting–receiving aperture of a turbulent lidar is experimentally studied. Sounding was…”
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Specifics of Sounding the Atmospheric Boundary Layer with a Turbulent Lidar by Razenkov, I. A.

“…Recommendations on the use of an aerosol turbulent lidar for research in the atmospheric boundary layer are given. A feature of a turbulent lidar is that the…”
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Estimation of the Turbulence Intensity from Lidar Data by Razenkov, I. A.

“…A way of estimating the intensity of the structure characteristic of fluctuations of the refractive index based on data from a two-channel turbulent aerosol…”
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Turbulent Lidar: I−Design by Razenkov, I. A.

“…Two designs of a laser radar system based on the backscatter amplification effect (BSA) are suggested. The system is a micropulse aerosol lidar with two…”
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Turbulent Lidar: II−Experiment by Razenkov, I. A.

“…Results of field experiments on horizontal paths using the BSA-2 and BSA-3 turbulent lidars, principles and design of which have been described in the first…”
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A case study of pyro-convection using transport model and remote sensing data by Damoah, R., Spichtinger, N., Servranckx, R., Fromm, M., Eloranta, E. W., Razenkov, I. A., James, P., Shulski, M., Forster, C., Stohl, A.

“…Summer 2004 saw severe forest fires in Alaska and the Yukon Territory that were mostly triggered by lightning strikes. The area burned (>2.7×106 ha) in the…”
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Optimization of Parameters of a Turbulent Lidar by Razenkov, I. A.

“…— Experimental and calculated data on the shape of the peak of backscatter enhancement during beam propagation through a turbulent atmosphere are compared. Two…”
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The Use of the Turbulent Lidar for Aviation Safety by Razenkov, I. A., Belan, B. D., Mikhal’chishin, A. V., Ivlev, G. A.

“…Clear air turbulence (CAT) constitutes the highest danger for aviation in the free atmosphere in the altitude range 6–12 km. Intermittence and random…”
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Comparison of Results of Joint Wind Velocity Measurements with the Stream Line and WPL Coherent Doppler Lidars by Smalikho, I. N., Banakh, V. A., Razenkov, I. A., Sukharev, A. A., Falits, A. V., Sherstobitov, A. M.

“…The WPL pulsed coherent Doppler lidar (PCDL) designed at the Wave Propagation Laboratory of Institute of Atmospheric Optics, Siberian Branch, Russian Academy…”
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Turbulent UV Lidar BSE-5 by Razenkov, I. A., Nadeev, A. I., Zaitsev, N. G., Gordeev, E. V.

“…An eye-safe turbulent UV (355 nm) lidar BSE-5 designed for the study of atmospheric turbulence is described. Lidar works on the basis of the backscatter…”
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Comparison of an Avalanche Photodiode and a Photomultiplier Tube as Photodetectors of Near-Infrared Radiation in the Photon-Counting Mode by Nadeev, A. I., Razenkov, I. A., Shelefontyuk, D. I., Shevtsov, E. S.

“…The results of testing near-infrared photodetectors, that is, a HAMAMATSU H10330B-25 photomultiplier tube (PMT) and a receiving module that was created by the…”
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Sounding of Kelvin–Helmholtz Waves by a Turbulent Lidar: II–BSE-5 Lidar by Razenkov, I. A.

“…In continuation of the first part of the work, experimental results of Kelvin–Helmholtz wave sounding with a UV BSE-5 lidar (355 nm), with the sensitivity…”
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The Design and Construction of an Airborne High Spectral Resolution Lidar by Eloranta, E.W., Razenkov, I.A., Hedrick, J., Garcia, J.P.

“…A high spectral resolution lidar designed for operation in the NSF/NCAR Gulfstream V research aircraft is described. The operational principles of the…”
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Lidar measurements of atmospheric backscattering amplification by Banakh, V. A., Razenkov, I. A.

“…Results of long-term continuous measurements of the atmospheric backscattering amplification coefficient on a 2-km-long near-ground path with the use of a…”
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Aerosol lidar for continuous atmospheric monitoring by Razenkov, I. A.

“…A design is proposed of an eye-safe high spectral resolution lidar operating at a wavelength of 532 nm. Absolute calibration is ensured by a molecular channel…”
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