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Bibliographic Details
Main Authors: Dehaghi, Alireza Kalantari, Zhu, Linxiao
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.20372
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author Dehaghi, Alireza Kalantari
Zhu, Linxiao
author_facet Dehaghi, Alireza Kalantari
Zhu, Linxiao
contents We consider the consequence of having nonreciprocal photon transfer between two surfaces with temperature gradient. We demonstrate that in a system consisting of graphene and a magneto-optical substrate separated by a gap, a transverse electric field is generated in graphene perpendicular to magnetic field and temperature gradient, in analogy to Nernst effect. Such photon Nernst effect is driven by nonreciprocal Casimir force carried by photons. We show that the thermal efficiency of near-field photon Nernst effect is bounded by the Carnot limit, and nonreciprocal high-k modes are needed for approaching the limit. The near-field photon Nernst effect can be useful for probing nonreciprocal radiative transfer, and energy harvesting.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20372
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Near-field photon Nernst effect
Dehaghi, Alireza Kalantari
Zhu, Linxiao
Optics
We consider the consequence of having nonreciprocal photon transfer between two surfaces with temperature gradient. We demonstrate that in a system consisting of graphene and a magneto-optical substrate separated by a gap, a transverse electric field is generated in graphene perpendicular to magnetic field and temperature gradient, in analogy to Nernst effect. Such photon Nernst effect is driven by nonreciprocal Casimir force carried by photons. We show that the thermal efficiency of near-field photon Nernst effect is bounded by the Carnot limit, and nonreciprocal high-k modes are needed for approaching the limit. The near-field photon Nernst effect can be useful for probing nonreciprocal radiative transfer, and energy harvesting.
title Near-field photon Nernst effect
topic Optics
url https://arxiv.org/abs/2511.20372