| Quantum Otto engine of a two-level atom with single-mode fields J Wang, Z Wu, J He Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 85 (4 …, 2012 | 105 | 2012 |
| Efficiency at maximum power of a heat engine working with a two-level atomic system R Wang, J Wang, J He, Y Ma Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 87 (4 …, 2013 | 98 | 2013 |
| Performance analysis of a two-state quantum heat engine working with a single-mode radiation field in a cavity J Wang, J He, X He Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 84 (4 …, 2011 | 81 | 2011 |
| Efficiency at maximum power output of quantum heat engines under finite-time operation J Wang, J He, Z Wu Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 85 (3 …, 2012 | 79 | 2012 |
| Optimization on a three-level heat engine working with two noninteracting fermions in a one-dimensional box trap J Wang, J He Journal of Applied Physics 111 (4), 2012 | 75 | 2012 |
| Performance analysis of a spin quantum heat engine cycle with internal friction J Wang, J He, Y Xin Physica Scripta 75 (2), 227, 2007 | 61 | 2007 |
| Efficiency at maximum power output of an irreversible Carnot-like cycle with internally dissipative friction J Wang, J He Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 86 (5 …, 2012 | 60 | 2012 |
| Performance of a quantum heat engine cycle working with harmonic oscillator systems JH Wang, JZ He, ZY Mao Science in China Series G: Physics, Mechanics and Astronomy 50 (2), 163-176, 2007 | 59 | 2007 |
| Efficiency at maximum power of a quantum heat engine based on two coupled oscillators JH Jianhui Wang, Zhuolin Ye, Yiming Lai, Weisheng Li Phys. Rev. E 91 (6), 062134, 2015 | 52 | 2015 |
| Coefficient of performance for a low-dissipation Carnot-like refrigerator with nonadiabatic dissipation Y Hu, F Wu, Y Ma, J He, J Wang, AC Hernández, JMM Roco Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 88 (6 …, 2013 | 51 | 2013 |
| Finite-time performance of a quantum heat engine with a squeezed thermal bath J Wang, J He, Y Ma Physical Review E 100 (5), 052126, 2019 | 49 | 2019 |
| Efficiency at maximum power of a quantum Otto cycle within finite-time or irreversible thermodynamics F Wu, J He, Y Ma, J Wang Physical Review E 90 (6), 062134, 2014 | 43 | 2014 |
| Thermodynamics and finite-size scaling of homogeneous weakly interacting Bose gases within an exact canonical statistics J Wang, Y Ma Physical Review A—Atomic, Molecular, and Optical Physics 79 (3), 033604, 2009 | 39 | 2009 |
| Performance of a multilevel quantum heat engine of an ideal -particle Fermi system R Wang, J Wang, J He, Y Ma Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 86 (2 …, 2012 | 37 | 2012 |
| Four-level refrigerator driven by photons J. H. Wang, Y. M. Lai, Z. L. Ye, J. Z.He, Y. L. Ma, Q. H. Liao Physical Review E 91 (5), 050102(R), 2015 | 32* | 2015 |
| Power statistics of Otto heat engines with the Mpemba effect J Lin, K Li, J He, J Ren, J Wang Physical Review E 105 (1), 014104, 2022 | 27 | 2022 |
| Quantum-mechanical engines working with an ideal gas with a finite number of particles confined in a power-law trap W Jianhui, M Yongli, H Jizhou EPL (Europhysics Letters), 111 (2), 20006, 2015 | 24* | 2015 |
| Fluctuations in irreversible quantum Otto engines G Jiao, S Zhu, J He, Y Ma, J Wang Physical Review E 103 (3), 032130, 2021 | 21 | 2021 |
| Coefficient of performance under maximum criterion in a two-level atomic system as a refrigerator Y Yuan, R Wang, J He, Y Ma, J Wang Physical Review E 90 (5), 052151, 2014 | 19 | 2014 |
| Quantum Otto refrigerators in finite-time cycle period G Jiao, Y Xiao, J He, Y Ma, J Wang New Journal of Physics 23 (6), 063075, 2021 | 16 | 2021 |
Zhuolin YeUniversity of LeipzigVerified email at studserv.uni-leipzig.de