Low-energy models for correlated materials: bandwidth renormalization
  from Coulombic screening

A. J. Millis; F. Aryasetiawan; I. G. Lang; I. G. Lang; L. Vaugier; M. Casula; Ph. Werner; S. Biermann; S. Biermann; T. Miyake

research

Low-energy models for correlated materials: bandwidth renormalization from Coulombic screening

Authors: A. J. Millis
F. Aryasetiawan
I. G. Lang
I. G. Lang
L. Vaugier
M. Casula
Ph. Werner
S. Biermann
S. Biermann
T. Miyake
Publication date: 1 January 2012
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We provide a prescription for constructing Hamiltonians representing the low energy physics of correlated electron materials with dynamically screened Coulomb interactions. The key feature is a renormalization of the hopping and hybridization parameters by the processes that lead to the dynamical screening. The renormalization is shown to be non-negligible for various classes of correlated electron materials. The bandwidth reduction effect is necessary for connecting models to materials behavior and for making quantitative predictions for low-energy properties of solids.Comment: 4 pages, 2 figure