Heating of three-layer solid aerosol particles by laser radiation

Liudmila G. Astafyeva; Nikolai V. Voshchinnikov; Lawrence B. F. M. Waters

doi:10.1364/AO.41.003700

Applied Optics
Vol. 41,
Issue 18,
pp. 3700-3705
(2002)
•https://doi.org/10.1364/AO.41.003700

Heating of three-layer solid aerosol particles by laser radiation

Liudmila G. Astafyeva, Nikolai V. Voshchinnikov, and Lawrence B. F. M. Waters

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Liudmila G. Astafyeva, Nikolai V. Voshchinnikov, and Lawrence B. F. M. Waters, "Heating of three-layer solid aerosol particles by laser radiation," Appl. Opt. 41, 3700-3705 (2002)

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Abstract

The heating of lidar-irradiated multilayer particles is analyzed theoretically and numerically by solution of the heat conduction equation. The internal intensity and temperature distributions are presented for particles composed of air, quartz, and carbon. It is shown that the heating times of such particles substantially depend on particle radii, layer position, and shell thickness. In particular, the decrease in thickness of the surface carbon layer can result in a reduction of the heating time of multilayer particles.

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Applied Optics