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Kvantovaya Elektronika, 2015, Volume 45, Number 2, Pages 145–152 (Mi qe16109)  

This article is cited in 2 scientific papers (total in 2 papers)

Light scattering

Modelling of radiative transfer by the Monte Carlo method and solving the inverse problem based on a genetic algorithm according to experimental results of aerosol sensing on short paths using a femtosecond laser source

G. G. Matvienkoa, V. K. Oshlakova*, A. N. Stepanovb, A. Ya. Sukhanova

a Institute of Atmospheric Optics, Siberian Branch of the Russian Academy of Science, Tomsk
b Institute of Applied Physics, Russian Academy of Sciences, Nizhnii Novgorod

Abstract: We consider the algorithms that implement a broadband ('multiwave') radiative transfer with allowance for multiple (aerosol) scattering and absorption by main atmospheric gases. In the spectral range of 0.6 – 1 μm, a closed numerical simulation of modifications of the supercontinuum component of a probing femtosecond pulse is performed. In the framework of the algorithms for solving the inverse atmospheric-optics problems with the help of a genetic algorithm, we give an interpretation of the experimental backscattered spectrum of the supercontinuum. An adequate reconstruction of the distribution mode for the particles of artificial aerosol with the narrow-modal distributions in a size range of 0.5 – 2 mm and a step of 0.5 mm is obtained.

Keywords: radiation, atmosphere, transfer, aerosol, lidar, femtosecond laser, supercontinuum, inverse problem, genetic algorithm, Monte Carlo method.
* Author to whom correspondence should be addressed

Full text: PDF file (1354 kB)
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English version:
Quantum Electronics, 2015, 45:2, 145–152

Bibliographic databases:

PACS: 42.68.Ay, 42.68.Jg, 42.65.Re
Received: 03.03.2014
Revised: 03.09.2014

Citation: G. G. Matvienko, V. K. Oshlakov, A. N. Stepanov, A. Ya. Sukhanov, “Modelling of radiative transfer by the Monte Carlo method and solving the inverse problem based on a genetic algorithm according to experimental results of aerosol sensing on short paths using a femtosecond laser source”, Kvantovaya Elektronika, 45:2 (2015), 145–152 [Quantum Electron., 45:2 (2015), 145–152]

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  • http://mi.mathnet.ru/eng/qe/v45/i2/p145

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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

    This publication is cited in the following articles:
    1. Matvienko G.G. Sukhanov A.Ya. Oshlakov V.K., 21St International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, Proceedings of Spie, 9680, ed. Matvienko G. Romanovskii O., Spie-Int Soc Optical Engineering, 2015, 96803X  crossref  isi  scopus
    2. G. G. Matvienko, P. A. Babushkin, S. M. Bobrovnikov, A. G. Borovoi, D. A. Bochkovskii, V. P. Galileiskii, A. I. Grishin, S. I. Dolgii, A. I. Elizarov, D. V. Kokarev, A. V. Konoshonkin, A. V. Kryuchkov, N. V. Kustova, A. V. Nevzorov, V. N. Marichev, A. M. Morozov, V. K. Oshlakov, O. A. Romanovskii, A. Ya. Sukhanov, D. A. Trifonov, S. V. Yakovlev, S. A. Sadovnikov, A. A. Nevzorov, O. V. Kharchenko, Atmos. Ocean. Opt., 33:1 (2020), 51–68  crossref  isi  scopus
  • Квантовая электроника Quantum Electronics
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