Resonant Enhancement of Electronic Raman Scattering

A.M. Shvaika; O. Vorobyov; J.K. Freericks; T.P. Devereaux

arXiv:cond-mat/0407120·cond-mat.str-el·May 23, 2007

Resonant Enhancement of Electronic Raman Scattering

A.M. Shvaika, O. Vorobyov, J.K. Freericks, T.P. Devereaux

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TL;DR

This paper provides an exact theoretical solution for electronic Raman scattering in strongly correlated materials, specifically using the Falicov-Kimball model, and explores the effects of resonance and nonresonance near a Mott transition.

Contribution

It offers a novel exact solution for electronic Raman scattering including all contributions in a strongly correlated system using dynamical mean field theory.

Findings

01

Exact solution for Raman scattering in the Falicov-Kimball model

02

Analysis of resonance effects near Mott transition

03

Insights into nonresonant, resonant, and mixed contributions

Abstract

We present an exact solution for electronic Raman scattering in a single-band, strongly correlated material, including nonresonant, resonant and mixed contributions. Results are derived for the spinless Falicov-Kimball model, employing dynamical mean field theory; this system can be tuned through a Mott metal-insulator transition.

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