The Theory of Light Scattering by Semiconductor Quantum Dots.   Semiclassical Method Using Retarded Potentials

I.G.Lang; L.I.Korovin; S.T.Pavlov

arXiv:cond-mat/0703051·cond-mat.mes-hall·May 23, 2007

The Theory of Light Scattering by Semiconductor Quantum Dots. Semiclassical Method Using Retarded Potentials

I.G.Lang, L.I.Korovin, S.T.Pavlov

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TL;DR

This paper develops a semiclassical theoretical framework for elastic light scattering by semiconductor quantum dots, providing exact far-field results and formulas for differential cross sections under various irradiation conditions.

Contribution

It introduces a novel semiclassical method using retarded potentials to model light scattering by quantum dots, avoiding boundary condition issues.

Findings

01

Exact expressions for the Poynting vector at large distances

02

Formulas for differential scattering cross sections

03

Applicable to monochromatic and pulsed light

Abstract

The theory of elastic light scattering by semiconductor quantum dots is suggested. The semiclassical method, applying retarded potentials to avoid the problem of bounder conditions for electric and magnetic field, is used. The exact results for the Pointing vector on large distances from a quantum dot, formulas of differential cross sections of light scattering for the monochromatic and pulse irradiation are obtained.

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Taxonomy

TopicsAdvanced Scientific Techniques and Applications · Optical and Acousto-Optic Technologies · Advanced Computational Techniques in Science and Engineering