Reconsidering Photonic Quantum Heat Engine Efficiency

被引:0
|
作者
Kirk, Alexander P. [1 ]
机构
[1] Cent R&D LLC, Schaumburg, IL 60194 USA
来源
FLUCTUATION AND NOISE LETTERS | 2023年 / 22卷 / 02期
关键词
Efficiency; quantum coherence; quantum heat engine; superradiance;
D O I
10.1142/S0219477523500256
中图分类号
O1 [数学];
学科分类号
0701 ; 070101 ;
摘要
A device - referred to as a photonic quantum heat engine - was reported in Nature Photonics [J. Kim, S. Oh, D. Yang, J. Kim, M. Lee and K. An, A photonic quantum engine driven by superradiance, Nat. Photon. 16 (2022) 707-711] with an efficiency of 98 +/- 4%. Moreover, in a related News & Views contribution in the same issue [M. Kim, M. Scully and A. Svidzinsky, A supercharged photonic quantum heat engine, Nat. Photon. 16 (2022) 669-670], this device was reported to exceed the Carnot limit, an extraordinary claim. As Carl Sagan once remarked, "Extraordinary claims require extraordinary evidence. " Here, we outline the fundamental lack of empirical evidence that would be required to support such a claim, show that the actual efficiency of the device is 0% and bring to attention critical aspects of the operating physics of the device.
引用
收藏
页数:4
相关论文
共 50 条
  • [31] Magnon-driven quantum-dot heat engine
    Sothmann, Bjoern
    Buettiker, Markus
    EPL, 2012, 99 (02)
  • [32] Coupled quantum Otto heat engine and refrigerator with inner friction
    Turkpence, Deniz
    Altintas, Ferdi
    QUANTUM INFORMATION PROCESSING, 2019, 18 (08)
  • [33] Coupled quantum Otto heat engine and refrigerator with inner friction
    Deniz Türkpençe
    Ferdi Altintas
    Quantum Information Processing, 2019, 18
  • [34] Measurement Based Quantum Heat Engine with Coupled Working Medium
    Das, Arpan
    Ghosh, Sibasish
    ENTROPY, 2019, 21 (11)
  • [35] Entangled quantum Otto and quantum Stirling heat engine based on two-spin systems with Dzyaloshinski-Moriya interaction
    Zhao Li-Mei
    Zhang Guo-Feng
    ACTA PHYSICA SINICA, 2017, 66 (24)
  • [36] General Formula for the Efficiency of Quantum-Mechanical Analog of the Carnot Engine
    Abe, Sumiyoshi
    ENTROPY, 2013, 15 (04): : 1408 - 1415
  • [37] A dynamic model for the efficiency optimization of an oscillatory low grade heat engine
    Markides, Christos N.
    Smith, Thomas C. B.
    ENERGY, 2011, 36 (12) : 6967 - 6980
  • [38] On the thermodynamics of the difference between energy transfer rate and heat engine efficiency
    Dong, H.
    Ghosh, A.
    Kim, M. B.
    Li, S. -W.
    Svidzinsky, A. A.
    Zhang, Z.
    Kurizki, G.
    Scully, M. O.
    EUROPEAN PHYSICAL JOURNAL-SPECIAL TOPICS, 2021, 230 (04) : 867 - 871
  • [39] Effect of in-cylinder swirl on engine efficiency and heat rejection in a light-duty diesel engine
    Olmeda, P.
    Martin, J.
    Blanco-Cavero, D.
    Warey, A.
    Domenech, V.
    INTERNATIONAL JOURNAL OF ENGINE RESEARCH, 2017, 18 (1-2) : 81 - 92
  • [40] Efficiency large deviation function of quantum heat engines
    Denzler, Tobias
    Lutz, Eric
    NEW JOURNAL OF PHYSICS, 2021, 23 (07):
12345