The Anomalous Photo‐Nernst Effect of Massive Dirac Fermions In HfTe5

Maanwinder P. Singh; Jonas Kiemle; Chen Xu; Waldemar Schmunk; Qingxin Dong; Genfu Chen; Tobias Meng; Christoph Kastl

doi:10.1002/apxr.202300099

Advanced Physics Research (Mar 2024)

The Anomalous Photo‐Nernst Effect of Massive Dirac Fermions In HfTe5

Maanwinder P. Singh,
Jonas Kiemle,
Chen Xu,
Waldemar Schmunk,
Qingxin Dong,
Genfu Chen,
Tobias Meng,
Christoph Kastl

Affiliations

Maanwinder P. Singh: Walter Schottky Institute and Physik‐Department Technical University of Munich Am Coulombwall 4a 85748 Garching Germany
Jonas Kiemle: Walter Schottky Institute and Physik‐Department Technical University of Munich Am Coulombwall 4a 85748 Garching Germany
Chen Xu: Institute of Theoretical Physics and Würzburg‐Dresden Cluster of Excellence ct.qmat Technische Universität Dresden 01062 Dresden Germany
Waldemar Schmunk: Walter Schottky Institute and Physik‐Department Technical University of Munich Am Coulombwall 4a 85748 Garching Germany
Qingxin Dong: Institute of Physics and Beijing National Laboratory for Condensed Matter Physics Chinese Academy of Sciences Beijing 100190 China
Genfu Chen: Institute of Physics and Beijing National Laboratory for Condensed Matter Physics Chinese Academy of Sciences Beijing 100190 China
Tobias Meng: Institute of Theoretical Physics and Würzburg‐Dresden Cluster of Excellence ct.qmat Technische Universität Dresden 01062 Dresden Germany
Christoph Kastl: Walter Schottky Institute and Physik‐Department Technical University of Munich Am Coulombwall 4a 85748 Garching Germany

DOI: https://doi.org/10.1002/apxr.202300099
Journal volume & issue: Vol. 3, no. 3
pp. n/a – n/a

Abstract

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Abstract The quantum geometric Berry curvature results in an anomalous correction to the band velocity of crystal electrons with a corresponding transverse (thermo)electric conductivity. However, time‐reversal symmetry typically constrains the direct observation and exploitation of anomalous transport to magnetic compounds. Here, it is demonstrated the anomalous Hall and Nernst conductivities are essential for describing the optoelectronic transport in thin films of the non‐magnetic, weakly gapped semimetal HfTe5 subject to an external magnetic field. A focused photoexcitation adresses the symmetries of the local Nernst conductivity, which unveils a hitherto hidden, anomalous photo‐Nernst effect of three‐dimensional (3D) massive Dirac fermions. The experimental temperature and density dependencies are compared with a semiclassical Boltzmann transport model. For HfTe5 thin films with the Fermi level close to the gap, the model suggests that the anomalous photo‐Nernst currents originate from an intrinsic Berry curvature mechanism, where the Zeeman interaction effectively breaks time‐reversal symmetry of the massive Dirac fermions already at moderate external magnetic fields.

Published in Advanced Physics Research

ISSN: 2751-1200 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics
Website: https://onlinelibrary.wiley.com/journal/27511200

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