Optical spin noise spectroscopy: application for study of gyrotropy   spatial correlations

G. G. Kozlov; V. S. Zapasskii; I. I. Ryzhov

arXiv:1611.02080·cond-mat.mes-hall·November 8, 2016

Optical spin noise spectroscopy: application for study of gyrotropy spatial correlations

G. G. Kozlov, V. S. Zapasskii, I. I. Ryzhov

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TL;DR

This paper applies single scattering theory to spin noise spectroscopy with tilted Gaussian beams, demonstrating that SNS signals reveal spatial correlations in gyrotropic media.

Contribution

It introduces a theoretical framework for analyzing spin noise spectroscopy with tilted beams to access spatial correlation information.

Findings

01

SNS signals encode spatial correlations of gyrotropic media

02

Tilted Gaussian probe beams enhance information content in SNS

03

Theoretical analysis links beam geometry to measurable correlations

Abstract

The single scattering theory is applied to spin noise spectroscopy (SNS). The case of two Gaussian probe beams tilted with respect to each other is analysed. It is shown that SNS signal in this case carry information about spatial correlations of studied gyrotropic medium.

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Taxonomy

TopicsAtomic and Subatomic Physics Research · Quantum optics and atomic interactions · Advanced Frequency and Time Standards