Phys. Rev. B 104, 035128 (2021) - Theoretical evidence for the Peierls transition in ${\mathrm{NbO}}_{2}$

Theoretical evidence for the Peierls transition in ${NbO}_{2}$

Kathrin Kulmus, Sibylle Gemming, Michael Schreiber, Dimitar Pashov, and Swagata Acharya

Phys. Rev. B 104, 035128 – Published 15 July 2021

Abstract

We show by advanced electronic structure calculations that ${NbO}_{2}$ essentially is a Peierls-type material. After simulating the rutile as well as the body-centered tetragonal phase with the Bethe-Salpeter equation, we are able to reproduce the experimental values for the electronic properties without adding correlations. Our calculation includes only excitonic corrections and no further interactions. The principal indirect gap is between $N$ and $Γ$ and is found to be 0.98 eV, the direct gap at the $Γ$ point amounts to 1.35 eV. We found the rutile structure to be anisotropic, with nesting vectors in the Fermi surfaces in the $Γ M A Z$ and $Γ X R Z$ planes.

Received 19 January 2021
Revised 30 April 2021
Accepted 3 June 2021

DOI:https://doi.org/10.1103/PhysRevB.104.035128

©2021 American Physical Society

Physics Subject Headings (PhySH)

Density of states Dielectric properties Electrical properties Electronic structure Fermi surface First-principles calculations

3-dimensional systems Crystalline systems Metals Peierls transition Semiconductors

Density functional theory GW method

Condensed Matter, Materials & Applied Physics

Authors & Affiliations

Kathrin Kulmus ^*, Sibylle Gemming , and Michael Schreiber

Chemnitz University of Technology, 09107 Chemnitz, Germany

King's College London, WC2R 2LS London, United Kingdom

Swagata Acharya

King's College London, WC2R 2LS London, United Kingdom and Radboud University Nijmegen, NL-6525 AJ Nijmegen, Netherlands

^*Corresponding author: kathrin.kulmus@posteo.de

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Issue

Vol. 104, Iss. 3 — 15 July 2021

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