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Main Authors: Nomoto, Tetsuya, Kikkawa, Akiko, Nakazawa, Kazuki, Yamaguchi, Terufumi, Kagawa, Fumitaka
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.08058
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_version_ 1866917956604133376
author Nomoto, Tetsuya
Kikkawa, Akiko
Nakazawa, Kazuki
Yamaguchi, Terufumi
Kagawa, Fumitaka
author_facet Nomoto, Tetsuya
Kikkawa, Akiko
Nakazawa, Kazuki
Yamaguchi, Terufumi
Kagawa, Fumitaka
contents The nonlinear thermoelectric effect is a key factor for realising unconventional thermoelectric phenomena, such as heat rectification and power generation using thermal fluctuations. Recent theoretical advances have indicated that chiral materials can host a variety of exotic nonlinear thermoelectric transport arising from inversion-symmetry breaking. However, experimental demonstration has yet to be achieved. Here, we report the observation of the nonlinear chiral thermoelectric Hall effect in chiral tellurium at room temperature, where a voltage is generated as a cross product of the temperature gradient and electric field. The resulting thermoelectric Hall voltage is on the order of μV, consistent with the prediction from the ab initio calculation. Furthermore, the sign of the thermoelectric Hall voltage is reversed depending on the crystal chirality, demonstrating a novel functionality of sign control of the thermoelectric effect by the chirality degrees of freedom. Our findings reveal the potential of chiral systems as nonlinear thermoelectric materials for advanced thermal management and energy harvesting.
format Preprint
id arxiv_https___arxiv_org_abs_2503_08058
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Observation of the nonlinear chiral thermoelectric Hall effect in tellurium
Nomoto, Tetsuya
Kikkawa, Akiko
Nakazawa, Kazuki
Yamaguchi, Terufumi
Kagawa, Fumitaka
Mesoscale and Nanoscale Physics
Materials Science
The nonlinear thermoelectric effect is a key factor for realising unconventional thermoelectric phenomena, such as heat rectification and power generation using thermal fluctuations. Recent theoretical advances have indicated that chiral materials can host a variety of exotic nonlinear thermoelectric transport arising from inversion-symmetry breaking. However, experimental demonstration has yet to be achieved. Here, we report the observation of the nonlinear chiral thermoelectric Hall effect in chiral tellurium at room temperature, where a voltage is generated as a cross product of the temperature gradient and electric field. The resulting thermoelectric Hall voltage is on the order of μV, consistent with the prediction from the ab initio calculation. Furthermore, the sign of the thermoelectric Hall voltage is reversed depending on the crystal chirality, demonstrating a novel functionality of sign control of the thermoelectric effect by the chirality degrees of freedom. Our findings reveal the potential of chiral systems as nonlinear thermoelectric materials for advanced thermal management and energy harvesting.
title Observation of the nonlinear chiral thermoelectric Hall effect in tellurium
topic Mesoscale and Nanoscale Physics
Materials Science
url https://arxiv.org/abs/2503.08058