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Jizhou He

Showing results (11-20 of 39) with videos related to

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Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|July 7, 2011
Condensate fluctuations of interacting Bose gases within a microcanonical ensembleJianhui Wang, Jizhou He, Yongli Ma
Physical Review. E|December 25, 2019
Finite-time performance of a quantum heat engine with a squeezed thermal bathJianhui Wang, Jizhou He, Yongli Ma
Physical Review. E|September 18, 2020
Quantum Otto engine working with interacting spin systems: Finite power performance in stochastic thermodynamicsYingying Hong, Yuling Xiao, Jizhou He, et al.
Scientific Reports|July 26, 2017
Universality of maximum-work efficiency of a cyclic heat engine based on a finite system of ultracold atomsZhuolin Ye, Yingying Hu, Jizhou He, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 4, 2014
Performance characteristics and optimal analysis of a nanosized quantum dot photoelectric refrigeratorCong Li, Yanchao Zhang, Jianhui Wang, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|January 24, 2015
Efficiency at maximum power of a quantum Otto cycle within finite-time or irreversible thermodynamicsFeilong Wu, Jizhou He, Yongli Ma, et al.
Entropy (Basel, Switzerland)|March 29, 2023
Performance of Quantum Heat Engines Enhanced by Adiabatic Deformation of Trapping PotentialYang Xiao, Kai Li, Jizhou He, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|May 18, 2013
Efficiency at maximum power of a heat engine working with a two-level atomic systemRui Wang, Jianhui Wang, Jizhou He, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|September 26, 2012
Performance of a multilevel quantum heat engine of an ideal N-particle Fermi systemRui Wang, Jianhui Wang, Jizhou He, et al.
Physical Review. E|September 11, 2019
Finite-power performance of quantum heat engines in linear responseQin Liu, Jizhou He, Yongli Ma, et al.
Pageof 4

Showing results (11-20 of 39) with videos related to

Sort By:
Pageof 4
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|July 7, 2011
Condensate fluctuations of interacting Bose gases within a microcanonical ensembleJianhui Wang, Jizhou He, Yongli Ma
Physical Review. E|December 25, 2019
Finite-time performance of a quantum heat engine with a squeezed thermal bathJianhui Wang, Jizhou He, Yongli Ma
Physical Review. E|September 18, 2020
Quantum Otto engine working with interacting spin systems: Finite power performance in stochastic thermodynamicsYingying Hong, Yuling Xiao, Jizhou He, et al.
Scientific Reports|July 26, 2017
Universality of maximum-work efficiency of a cyclic heat engine based on a finite system of ultracold atomsZhuolin Ye, Yingying Hu, Jizhou He, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 4, 2014
Performance characteristics and optimal analysis of a nanosized quantum dot photoelectric refrigeratorCong Li, Yanchao Zhang, Jianhui Wang, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|January 24, 2015
Efficiency at maximum power of a quantum Otto cycle within finite-time or irreversible thermodynamicsFeilong Wu, Jizhou He, Yongli Ma, et al.
Entropy (Basel, Switzerland)|March 29, 2023
Performance of Quantum Heat Engines Enhanced by Adiabatic Deformation of Trapping PotentialYang Xiao, Kai Li, Jizhou He, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|May 18, 2013
Efficiency at maximum power of a heat engine working with a two-level atomic systemRui Wang, Jianhui Wang, Jizhou He, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|September 26, 2012
Performance of a multilevel quantum heat engine of an ideal N-particle Fermi systemRui Wang, Jianhui Wang, Jizhou He, et al.
Physical Review. E|September 11, 2019
Finite-power performance of quantum heat engines in linear responseQin Liu, Jizhou He, Yongli Ma, et al.
Pageof 4