Mesoscopic Correlation with Polarization of Electromagnetic Waves

A.A. Chabanov; N.P.Tregoures; B.A. van Tiggelen; and A.Z. Genack

arXiv:cond-mat/0309114·cond-mat.dis-nn·November 10, 2009

Mesoscopic Correlation with Polarization of Electromagnetic Waves

A.A. Chabanov, N.P.Tregoures, B.A. van Tiggelen, and A.Z. Genack

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TL;DR

This paper investigates mesoscopic correlations in the polarization of microwave radiation transmitted through a random waveguide, identifying different correlation components supported by diagrammatic theory.

Contribution

It provides experimental evidence and theoretical support for the distinct components of intensity correlation functions in mesoscopic wave transport.

Findings

01

Identification of short, long, and infinite range correlation components

02

Support for diagrammatic theory in explaining polarization correlations

03

Discovery of an additional frequency-independent correlation component

Abstract

Mesoscopic correlations are observed in the polarization of microwave radiation transmitted through a random waveguide. These measurements, supported by diagrammatic theory, permit the unambiguous identification of short, long, and infinite range components in the intensity correlation function, as well as an additional frequency-independent component.

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