Numerical Extraction of Distributions of Space-charge and Polarization   from Laser Intensity Modulation Method

Enis Tuncer; Sidney B. Lang

arXiv:cond-mat/0409183·cond-mat.other·May 23, 2007

Numerical Extraction of Distributions of Space-charge and Polarization from Laser Intensity Modulation Method

Enis Tuncer, Sidney B. Lang

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TL;DR

This paper presents a numerical approach combining Monte Carlo and least-squares methods to solve the Fredholm integral equation in laser intensity modulation, enabling extraction of space-charge and polarization distributions from experimental data.

Contribution

It introduces a novel numerical procedure that effectively solves the integral equation using Monte Carlo and least-squares techniques, improving analysis of laser modulation data.

Findings

01

Successfully tested on simulated data

02

Demonstrates accurate extraction of distributions

03

Provides a practical numerical solution

Abstract

The Fredholm integral equation of the laser intensity modulation method is solved with the application of the Monte Carlo technique and a least-squares solver. The numerical procedure is tested on simulated data.

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