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Main Authors: Ivanov, Vsevolod, Banyas, Ella, Tan, Liang Z.
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2211.07773
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author Ivanov, Vsevolod
Banyas, Ella
Tan, Liang Z.
author_facet Ivanov, Vsevolod
Banyas, Ella
Tan, Liang Z.
contents Power generation through the anomalous Nernst effect in topological Weyl materials has several advantages over conventional thermoelectrics due to the transverse geometry. However, the magnitude of the anomalous Nernst conductivity (ANC) in most known materials is too small to be of practical use, and there exist few guiding principles for finding materials with optimal thermoelectric properties. This work shows that the ANC is maximal when there is a ``coactive-staggered" feature in the anomalous Hall conductivity (AHC). It is shown that a minimal arrangement of two Weyl pairs leads to such a feature, and tuning the separations between the pairs controls the temperature at which the ANC is maximal. Several methods are proposed for creating such arrangements of Weyl points starting from Dirac semimetal materials. It is also demonstrated how an existing coactive-staggered AHC in a Heusler material can be exploited, by collectively tuning the positions of the Weyl points through strain to further enhance the ANC. A modest 20% amplification of the ANC is achieved, even with relatively minor changes in Weyl point positions.
format Preprint
id arxiv_https___arxiv_org_abs_2211_07773
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Coactive-Staggered Feature in Weyl Materials for Enhancing the Anomalous Nernst Conductivity
Ivanov, Vsevolod
Banyas, Ella
Tan, Liang Z.
Materials Science
Power generation through the anomalous Nernst effect in topological Weyl materials has several advantages over conventional thermoelectrics due to the transverse geometry. However, the magnitude of the anomalous Nernst conductivity (ANC) in most known materials is too small to be of practical use, and there exist few guiding principles for finding materials with optimal thermoelectric properties. This work shows that the ANC is maximal when there is a ``coactive-staggered" feature in the anomalous Hall conductivity (AHC). It is shown that a minimal arrangement of two Weyl pairs leads to such a feature, and tuning the separations between the pairs controls the temperature at which the ANC is maximal. Several methods are proposed for creating such arrangements of Weyl points starting from Dirac semimetal materials. It is also demonstrated how an existing coactive-staggered AHC in a Heusler material can be exploited, by collectively tuning the positions of the Weyl points through strain to further enhance the ANC. A modest 20% amplification of the ANC is achieved, even with relatively minor changes in Weyl point positions.
title Coactive-Staggered Feature in Weyl Materials for Enhancing the Anomalous Nernst Conductivity
topic Materials Science
url https://arxiv.org/abs/2211.07773