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Literature DB >> 33287023

Quantum Finite-Time Thermodynamics: Insight from a Single Qubit Engine.

Roie Dann¹, Ronnie Kosloff¹, Peter Salamon².

Abstract

Incorporating time into thermodynamics allows for addressing the tradeoff between efficiency and power. A qubit engine serves as a toy model in order to study this tradeoff from first principles, based on the quantum theory of open systems. We study the quantum origin of irreversibility, originating from heat transport, quantum friction, and thermalization in the presence of external driving. We construct various finite-time engine cycles that are based on the Otto and Carnot templates. Our analysis highlights the role of coherence and the quantum origin of entropy production.

Entities: Chemical Disease Species

Keywords: carnot cycle; finite-time thermodynamics; otto cycle; quantum heat engine; quantum thermodynamics

Year: 2020 PMID： 33287023 DOI： 10.3390/e22111255

Source DB: PubMed Journal: Entropy (Basel) ISSN： 1099-4300 Impact factor: 2.524

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Cited

6 in total

Quantum Finite-Time Thermodynamics: Insight from a Single Qubit Engine.

1. Future Perspectives of Finite-Time Thermodynamics.

2. Bound on Efficiency of Heat Engine from Uncertainty Relation Viewpoint.

3. Performance Analysis and Optimization for Irreversible Combined Carnot Heat Engine Working with Ideal Quantum Gases.

4. Four-Objective Optimizations for an Improved Irreversible Closed Modified Simple Brayton Cycle.

5. Minimization of Entropy Generation Rate in Hydrogen Iodide Decomposition Reactor Heated by High-Temperature Helium.

6. Modeling and Performance Optimization of an Irreversible Two-Stage Combined Thermal Brownian Heat Engine.