Multiwave matrix polarization lidar

Multiwave matrix polarization lidar

Remote control of the state of the atmosphere is an urgent problem nowadays. The problem of remote monitoring of the optical parameters of the atmosphere is solved using a matrix polarization lidar (MPL). The scattering matrix obtained from polarization measurements contains complete information on...

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Bibliographic Details
Published in:Atmosphere Vol. 14, № 11. P. 1621 (1-14)
Other Authors: Volkov, Sergey N. физик, Bryukhanov, Ilia D., Samokhvalov, Ignatii V. 1943-, Kim, Dukhyeon, Noh, Youngmin
Format: Article
Language:English
Subjects:
поляризационные лидары
обратное рассеяние
Мюллера матрица
волновые пластины
статьи в журналах
Online Access:http://vital.lib.tsu.ru/vital/access/manager/Repository/koha:001139590
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245 1 0 |a Multiwave matrix polarization lidar  |c S. N. Volkov, I. D. Bryukhanov, I. V. Samokhvalov [et al.] 
336 |a Текст 
337 |a электронный 
504 |a Библиогр.: 31 назв. 
520 3 |a Remote control of the state of the atmosphere is an urgent problem nowadays. The problem of remote monitoring of the optical parameters of the atmosphere is solved using a matrix polarization lidar (MPL). The scattering matrix obtained from polarization measurements contains complete information on the scattering parameters in the atmosphere. The purpose of the present research is the derivation of the theory and description of methods for solving problems of practical implementation of the multiwave MPL (MMPL). The problem is considered within the framework of the concept of the unified methodological approach to polarization studies. The MMPL operation principle is based on simultaneous use for sensing of the first, second, and third harmonics of radiation of a widespread Nd:YAG laser. The basis for achieving this purpose is provided by new methods of optical selection of the polarization components of radiation received in the experiment, methods of conducting polarization studies, and new solutions in experimental data processing methods. It has been shown that this challenge can be solved within the framework of simple solutions. Thus, the proposed MMPL is structurally simple and compact and can be implemented in mobile polarization lidar systems. 
653 |a поляризационные лидары 
653 |a обратное рассеяние 
653 |a Мюллера матрица 
653 |a волновые пластины 
655 4 |a статьи в журналах 
700 1 |a Volkov, Sergey N.  |c физик 
700 1 |a Bryukhanov, Ilia D. 
700 1 |a Samokhvalov, Ignatii V.  |d 1943- 
700 1 |a Kim, Dukhyeon 
700 1 |a Noh, Youngmin 
773 0 |t Atmosphere  |d 2023  |g Vol. 14, № 11. P. 1621 (1-14)  |x 2073-4433 
852 4 |a RU-ToGU 
856 4 |u http://vital.lib.tsu.ru/vital/access/manager/Repository/koha:001139590 
908 |a статья 
999 |c 1139590  |d 1139590 

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