Single-atom heat engine as a sensitive thermal probe

Amikam Levy; Moritz Göb; Bo Deng; Kilian Singer; E Torrontegui; Daqing Wang

doi:10.1088/1367-2630/abad7f

New Journal of Physics (Jan 2020)

Single-atom heat engine as a sensitive thermal probe

Amikam Levy,
Moritz Göb,
Bo Deng,
Kilian Singer,
E Torrontegui,
Daqing Wang

Affiliations

Amikam Levy: Department of Chemistry, University of California Berkeley , Berkeley, California 94720, United States of America; The Sackler Center for Computational Molecular Science, Tel Aviv University , Tel Aviv 69978, Israel
Moritz Göb: Experimentalphysik I, Universität Kassel , Heinrich-Plett-Str. 40, 34132 Kassel, Germany
Bo Deng: Experimentalphysik I, Universität Kassel , Heinrich-Plett-Str. 40, 34132 Kassel, Germany
Kilian Singer: ORCiD; Experimentalphysik I, Universität Kassel , Heinrich-Plett-Str. 40, 34132 Kassel, Germany
E Torrontegui: Instituto de Física Fundamental IFF-CSIC , Calle Serrano 113b, 28006 Madrid, Spain; Departamento de Física Universidad Carlos III de Madrid , Avda. de la Universidad 30, 28911 Leganés (Madrid), Spain
Daqing Wang: Experimentalphysik I, Universität Kassel , Heinrich-Plett-Str. 40, 34132 Kassel, Germany

DOI: https://doi.org/10.1088/1367-2630/abad7f
Journal volume & issue: Vol. 22, no. 9
p. 093020

Abstract

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We propose employing a quantum heat engine as a sensitive probe for thermal baths. In particular, we study a single-atom Otto engine operating in an open thermodynamic cycle. Owing to its cyclic nature, the engine is capable of translating small temperature differences between two baths into a macroscopic oscillation in a flywheel. We present analytical and numerical modeling of the quantum dynamics of the engine and estimate it to be capable of detecting temperature differences as small as 2 μ K. This sensitivity can be further improved by utilizing quantum resources such as squeezing of the ion motion. The proposed scheme does not require quantum state initialization and is able to detect small temperature differences in a wide range of base temperatures.

Published in New Journal of Physics

ISSN: 1367-2630 (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Science: Physics
Website: https://iopscience.iop.org/journal/1367-2630

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