arxiv:2404.12346

Quantum thermophoresis

Published on Apr 18, 2024

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Abstract

Theoretical exploration of quantum thermophoresis reveals thermophoretic forces and negative thermophoresis in a quantum particle system with multiple energy levels and coupled sites.

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Thermophoresis is the migration of a particle due to a thermal gradient. Here, we theoretically uncover the quantum version of thermophoresis. As a proof of principle, we analytically find a thermophoretic force on a trapped quantum particle having three energy levels in Lambda configuration. We then consider a model of N sites, each coupled to its first neighbors and subjected to a local bath at a certain temperature, so as to show numerically how quantum thermophoresis behaves with increasing delocalization of the quantum particle. We discuss how negative thermophoresis and the Dufour effect appear in the quantum regime.

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