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Title: Catalytic enhancement in the performance of the microscopic two-stroke heat engine

Journal Article · · Physical Review. E
ORCiD logo [1];  [2];  [2];  [2]
  1. Los Alamos National Laboratory (LANL), Los Alamos, NM (United States); Univ. of Gdansk (Poland)
  2. Univ. of Gdansk (Poland)
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Here we consider a model of heat engine operating in the microscopic regime: the two-stroke engine. It produces work and exchanges heat in two discrete strokes that are separated in time. The working body of the engine consists of two d-level systems initialized in thermal states at two distinct temperatures. Additionally, an auxiliary nonequilibrium system called catalyst may be incorporated with the working body of the engine, provided the state of the catalyst remains unchanged after the completion of a thermodynamic cycle. This ensures that the work produced by the engine arises solely from the temperature difference. Upon establishing the rigorous thermodynamic framework, we characterize twofold improvement stemming from the inclusion of a catalyst. Firstly, we prove that in the noncatalytic scenario, the optimal efficiency of the two-stroke heat engine with a working body composed of two-level systems is given by the Otto efficiency, which can be surpassed by incorporating a catalyst with the working body. Secondly, we show that incorporating a catalyst allows the engine to operate in frequency and temperature regimes that are not accessible for noncatalytic two-stroke engines. We conclude with a general conjecture about the advantage brought by a catalyst: including the catalyst with the working body always allows to improve efficiency over the noncatalytic scenario for any microscopic two-stroke heat engines. We prove this conjecture for two-stroke engines where the working body is composed of two d-level systems initialized in thermal states at two distinct temperatures, as long as the final joint state leading to optimal efficiency in the noncatalytic scenario is not a product state, or at least one of the d-level system is not thermal.

Research Organization:
Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA); USDOE Office of Science (SC), Advanced Scientific Computing Research (ASCR)
Grant/Contract Number:
89233218CNA000001; AC52-06NA25396
OSTI ID:
2475604
Report Number(s):
LA-UR--24-20685
Journal Information:
Physical Review. E, Journal Name: Physical Review. E Journal Issue: 4 Vol. 110; ISSN 2470-0045
Publisher:
American Physical Society (APS)Copyright Statement
Country of Publication:
United States
Language:
English

References (66)

Passive states and KMS states for general quantum systems journal October 1978
Quantum engines and refrigerators journal October 2024
Thermodynamics of Quantum Information Systems — Hamiltonian Description journal September 2004
Fundamental limitations for quantum and nanoscale thermodynamics journal June 2013
Work extraction and thermodynamics for individual quantum systems journal June 2014
Realization of a micrometre-sized stochastic heat engine journal December 2011
Energetic instability of passive states in thermodynamics journal December 2017
Quantum absorption refrigerator with trapped ions journal January 2019
A quantum heat engine driven by atomic collisions journal April 2021
Dynamical control of quantum heat engines using exceptional points journal October 2022
A quantum mechanical open system as a model of a heat engine journal February 1984
Experimental realization of a Szilard engine with a single electron journal September 2014
The second laws of quantum thermodynamics journal February 2015
Quantum thermal absorption machines: refrigerators, engines and clocks journal April 2019
Thermodynamics of black holes journal August 1978
The quantum open system as a model of the heat engine journal May 1979
Catalysis of entanglement and other quantum resources journal October 2023
Autonomous quantum thermal machine for generating steady-state entanglement journal November 2015
Nonequilibrium fluctuations in quantum heat engines: theory, example, and possible solid state experiments journal March 2015
Markovian master equations for quantum thermal machines: local versus global approach journal December 2017
Quantum magnetometry using two-stroke thermal machines journal January 2020
Catalysis in action via elementary thermal operations journal March 2024
The smallest refrigerators can reach maximal efficiency journal November 2011
Dissipation, correlation and lags in heat engines journal July 2016
Landauer Versus Nernst: What is the True Cost of Cooling a Quantum System? journal March 2023
Thermal Recall: Memory-Assisted Markovian Thermal Processes journal October 2023
Thermodynamics and Statistical Mechanics at Negative Absolute Temperatures journal July 1956
Quantum Equivalent of the Carnot Cycle journal April 1967
Stroboscopic two-stroke quantum heat engines journal October 2020
Power maximization of two-stroke quantum thermal machines journal March 2021
Implementation of a two-stroke quantum heat engine with a collisional model journal September 2022
Catalysis in charging quantum batteries journal April 2023
Optimal performance of a three-stroke heat engine in the microscopic regime journal September 2024
Nonadiabatic single-qubit quantum Otto engine journal February 2020
Unifying paradigms of quantum refrigeration: Fundamental limits of cooling and associated work costs journal October 2019
Molecular heat pump journal February 2006
Driven spin systems as quantum thermodynamic machines: Fundamental limits journal May 2007
Optimal refrigerator journal May 2010
Virtual qubits, virtual temperatures, and the foundations of thermodynamics journal May 2012
Performance of autonomous quantum thermal machines: Hilbert space dimension as a thermodynamical resource journal September 2016
How Small Can Thermal Machines Be? The Smallest Possible Refrigerator journal September 2010
Single-Ion Heat Engine at Maximum Power journal November 2012
On-Chip Maxwell’s Demon as an Information-Powered Refrigerator journal December 2015
Quantum Measurement Cooling journal February 2019
Experimental Demonstration of Quantum Effects in the Operation of Microscopic Heat Engines journal March 2019
Spin Heat Engine Coupled to a Harmonic-Oscillator Flywheel journal August 2019
Unifying Paradigms of Quantum Refrigeration: A Universal and Attainable Bound on Cooling journal October 2019
Experimental Characterization of a Spin Quantum Heat Engine journal December 2019
Quantum Coherence and Ergotropy journal October 2020
Quantum Thermodynamics of Correlated-Catalytic State Conversion at Small Scale journal April 2021
Entropy and Reversible Catalysis journal December 2021
Catalytic Leverage of Correlations and Mitigation of Dissipation in Information Erasure journal January 2023
Three-Level Masers as Heat Engines journal March 1959
Quantum Afterburner: Improving the Efficiency of an Ideal Heat Engine journal January 2002
Equivalence of Quantum Heat Machines, and Quantum-Thermodynamic Signatures journal September 2015
Nonequilibrium fluctuations, fluctuation theorems, and counting statistics in quantum systems journal December 2009
Catalysis in quantum information theory journal June 2024
Quantum thermodynamic devices: From theoretical proposals to experimental reality journal April 2022
A single-atom heat engine journal April 2016
Quantum Heat Engines and Refrigerators: Continuous Devices journal April 2014
Work and energy gain of heat-pumped quantized amplifiers journal September 2013
Maximal work extraction from finite quantum systems journal August 2004
The maximum efficiency of nano heat engines depends on more than temperature journal August 2019
Concepts of work in autonomous quantum heat engines journal October 2019
Thermodynamics of Minimal Coupling Quantum Heat Engines journal December 2020
Catalytic transformations with finite-size environments: applications to cooling and thermometry journal September 2021

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71 CLASSICAL AND QUANTUM MECHANICS
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