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Effect of disorder on density of states and conductivity in higher-order Van Hove singularities in two-dimensional bands

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posted on 2022-04-20, 12:45 authored by Anirudh ChandrasekaranAnirudh Chandrasekaran, Joseph BetourasJoseph Betouras
We study systems with energy bands in two dimensions, hosting higher order Van Hove singularities (HOVHS) in the presence of disorder, using standard diagrammatic techniques for impurity averaging. In the clean limit, such singularities cause power-law divergence in the density of states (DOS), and this is expected to strongly affect electronic correlation. In order to analyze the signatures of these singularities in disordered systems, we employ various Born approximations, culminating in the self-consistent (non) Born approximation. Although the divergence of the DOS is smeared, we find that the shape of the DOS, as characterized by the power-law tail and the universal ratio of prefactors, is retained slightly away from the singularity. This could help us to understand current and future experiments on materials that can be tuned to host HOVHS. The impurity-induced smearing is calculated and analyzed for several test cases of singularities. We also study the effects of impurities on electrical conductivity and determine the regimes where the quantitative features of the power-law DOS manifest in the conductivity.

Funding

Designing and exploring new quantum materials based on Fermi surface topological transitions

Engineering and Physical Sciences Research Council

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History

School

  • Science

Department

  • Physics

Published in

Physical Review B

Volume

105

Issue

7

Publisher

American Physical Society

Version

  • AM (Accepted Manuscript)

Rights holder

© American Physical Society

Publisher statement

This paper was accepted for publication in the journal Physical Review B and the definitive published version is available at https://doi.org/10.1103/PhysRevB.105.075144.

Acceptance date

2022-02-03

Publication date

2022-02-23

Copyright date

2022

ISSN

2469-9950

eISSN

2469-9969

Language

  • en

Depositor

Prof Joseph Betouras. Deposit date: 15 April 2022

Article number

075144

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