Holographic heat engine in Horndeski model with the k-essence sector 被引量：1

Holographic heat engine in Horndeski model with the k-essence sector

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摘要 This study aims to analyze the extended thermodynamical properties of the charged black hole in Horndeski theory with the k-essence sector. Herein, we define a holographic heat engine using the anti de Sitter black hole. We then estimate the engine efficiency in high-temperature limit and compare the result with the exact result. With the given specified parameters in a rectangular engine, high order coupling suppresses the engine efficiency. This study aims to analyze the extended thermodynamical properties of the charged black hole in Horndeski theory with the k-essence sector. Herein, we define a holographic heat engine using the anti de Sitter black hole. We then estimate the engine efficiency in high-temperature limit and compare the result with the exact result. With the given specified parameters in a rectangular engine, high order coupling suppresses the engine efficiency.

作者 ShiQian Hu XiaoMei Kuang

机构地区 Center for Gravitation and Cosmology

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2019年第6期21-26,共6页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the National Natural Science Foundation of China(Grant No.11705161) the Natural Science Foundation of Jiangsu Province(Grant No.BK20170481)

关键词 anti de SITTER BLACK HOLE THERMODYNAMICS of BLACK HOLE HOLOGRAPHIC heat engine anti de Sitter black hole thermodynamics of black hole holographic heat engine

分类号 P145.8 [天文地球—天体物理]

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1张贵福.英语阅读理解试题选萃与解析（一）[J].试题与研究（高中文科综合）,2011,0(4).
2谢宗春.望文不可生义——英语习语学习趣谈(二)[J].初中生必读,2017(10):35-35.
3LiQing Fang,XiaoMei Kuang.Holographic heat engine with momentum relaxation[J].Science China(Physics,Mechanics & Astronomy),2018,61(8):89-92.
4席静怡,全海涛.Quantum Heat Engine and Negative Boltzmann Temperature[J].Communications in Theoretical Physics,2017,67(9):347-356.
5赵仁,张丽春.Entropy of Higher-Dimensional Charged de Sitter Black Holes and Phase Transition[J].Communications in Theoretical Physics,2018,69(11):578-584.
6Y.Kenedy Meitei,T.Ibungochouba Singh,I.Ablu Meitei.Quantization of Horizon Area of Kerr–Newman–de Sitter Black Hole[J].Chinese Physics Letters,2019,36(3):19-23.
7Hong-zhi HU,Xiao-bo FENG,Zeng-wu SHAO,Mao XIE,Song XU,Xing-huo WU,Zhe-wei YE.Application and Prospect of Mixed Reality Technology in Medical Field[J].Current Medical Science,2019,39(1):1-6. 被引量：37
8Felipe J.Llanes-Estrada,Alexandre Salas-Bernardez.Chiral Symmetry Breaking for Fermions Charged under Large Lie Groups[J].Communications in Theoretical Physics,2019,71(4):410-416.
9DING ZeMin,CHEN LinGen,GE YanLin,XIE ZhiHui.Optimal performance regions of an irreversible energy selective electron heat engine with double resonances[J].Science China(Technological Sciences),2019,62(3):397-405. 被引量：9
10Sajjad Aghazadeh,Mahdi Gharabaghi,Ziaedin Shafaei.Thermodynamical and catalytic aspects of zinc separation from aqueous solution[J].Chinese Journal of Chemical Engineering,2018,26(12):2455-2460. 被引量：1

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Holographic heat engine in Horndeski model with the k-essence sector 被引量：1

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