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| Title: | Thermodynamic Geometry of Microscopic Heat Engines |
| Author(s): | Brandner, Kay ; Saito, Keiji |
| Date: | 2020-01-29 |
| Language: | en |
| Pages: | 7 |
| Department: | Centre of Excellence in Quantum Technology, QTF Keio University Department of Applied Physics |
| Series: | Physical Review Letters, Volume 124, issue 4 |
| ISSN: | 0031-9007 1079-7114 |
| DOI-number: | 10.1103/PhysRevLett.124.040602 |
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Brandner , K & Saito , K 2020 , ' Thermodynamic Geometry of Microscopic Heat Engines ' , Physical Review Letters , vol. 124 , no. 4 , 040602 . https://doi.org/10.1103/PhysRevLett.124.040602 |
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Abstract:We develop a general framework to describe the thermodynamics of microscopic heat engines driven by arbitrary periodic temperature variations and modulations of a mechanical control parameter. Within the slow-driving regime, our approach leads to a universal trade-off relation between efficiency and power, which follows solely from geometric arguments and holds for any thermodynamically consistent microdynamics. Focusing on Lindblad dynamics, we derive a second bound showing that coherence as a genuine quantum effect inevitably reduces the performance of slow engine cycles regardless of the driving amplitudes. To show how our theory can be applied in practice, we work out a specific example, which lies within the range of current solid-state technologies.
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