Determination of aerosol parameters from light-scattering data using an inverse Monte Carlo technique

An inverse, Monte Carlo (IMC) technique is developed to solve the electromagnetic inverse-scattering problem from generally complex distributions of dielectric particles. One can verify the technique using simulated scattering data from aerosols composed of spherical dielectrics. The IMC method is f...

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Published in:Applied optics (2004) 1996-07, Vol.35 (21), p.4297-4303
Main Authors: Ligon, D A, Chen, T W, Gillespie, J B
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Language:English
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container_title Applied optics (2004)
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Chen, T W
Gillespie, J B
description An inverse, Monte Carlo (IMC) technique is developed to solve the electromagnetic inverse-scattering problem from generally complex distributions of dielectric particles. One can verify the technique using simulated scattering data from aerosols composed of spherical dielectrics. The IMC method is found to give accurate inversion results even when the data have a signal-to-noise ratio to as low as 3:1.
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title Determination of aerosol parameters from light-scattering data using an inverse Monte Carlo technique
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