职称：

教授

博导/硕导：

博导、硕导

通讯地址：

上大路99号G楼523

联系电话：

E-mail：

Yongping11@t.shu.edu.cn

从事专业

基于冷原子系统的光与物质相互作用

研究方向

超冷原子物理，非线性物理，非厄米量子力学，量子调控和量子模拟，量子计算

讲授主要课程

量子力学，量子多体物理， 高年级研讨课-超冷原子物理

参加学术团体、任何职务

学习与工作简历

1999-2006年山西大学物理电子工程学院物理学本科和硕士；2009在中科院物理研究所获得物理学博士学位；然后在美国华盛顿州立大学（2010.06-2012.06）和德州大学（2009.11-2010.05）、澳大利亚昆士兰大学（2012.09-2013.03）和日本冲绳科技技术研究所（2013.03-2016.05）有七年的博士后研究经历。

张永平教授以超冷原子系统为研究对象探索基于光与物质相互作用的量子调控和量子模拟以及量子计算，涉及的领域为非厄米量子物理，量子光学，原子物理和非线性物理。 在国际物理主流期刊发表论文70多篇，包括以第一作者、共同第一作者和通信作者在物理学顶级期刊Physical Review Letters发表的论文8篇，和PhysicalReview A/B/Research期刊发表的38篇论文。最近几年在超冷原子中由人工规范势导致的新奇物理现象的理论研究中做出了优秀的成果，与国内外的实验组就相关方向展开实质合作。 联系方式 yongping11@t.shu.edu.cn

代表性成果（论文、论著、申请专利、荣誉奖励等）

74. Yan-Ling Pan, Qi Li, Gong-Ping Zheng, and Yongping Zhang, “Phase diagrams of spin-2 Floquet spinor Bose-Einstein codensates”, Physical Review A 113, 033313 (2026).

73. Huaxin He, Fengtao Pang, Xianchao Zhang, Yongping Zhang, and Chunlei Qu, “Bose-Einstein condensates in a spin-twisted harmonic trap”, Physical Review A 113, 013323 (2026).

72. Chenhui Wang, Yongping Zhang, and Vladimir V. Konotop, “Half-vortex soliton lattices in spin-orbit-coupled Bose-Einstein condensates with a quasi-flat band”, Chao,Solitons and Fractals 205, 117890 (2026).

71. Fengtao Pang, Huaxin He, Yongping Zhang, and Chunlei Qu, “Bose-Einstein condensates in a synthetic magnetic field with tunable orientation”, Physical Review A 112, 033309 (2025).

70. Yu-Liang Tao, Yongping Zhang, and Yong Xu, “Nonlinearity-induced Fractional Thouless Pumping of Solitons”, Physical Review Letters 135, 097202 (2025).

69. 曹彪培, 何华鑫, 王晨辉, 陈园园，张永平, “具有三次-五次竞争非线性的波导阵列中的无序孤子”, 光学学报, 第45卷，第1期，第0119001页 (2025).

68. Rajamanickam Ravisankar, Sanu Kumar Gangwar, Henrique Fabrelli, Yongping Zhang, Paulsamy Muruganandam, Pankaj Kumar Mishra, Emmanuel Kengne, Gao Xianlong, and Boris A. Malomed, “Stable supersolids and boselets in spin-orbit-coupled Bose-Einstein condensates with three-body interactions”, Physical Review Research 7, 023317 (2025).

67. Jing Yang and Yongping Zhang, “Gap solitons in spinor Bose-Einstein condensates with the Rabi coupling”, Physics Letters A, 130289 (2025).

66. Huaxin He, Fengtao Pang, Hao Lyu, and Yongping Zhang, “Band-edge superfluid of Bose-Einstein condensates in the spin-orbit-coupled Zeeman lattice”, Physical Review A, 111, 063350 (2025).

65. Yuanyang Zhou, Huaxin He, Fengtao Pang, Hao Lyu, Yongping Zhang, and Xi Chen, “Variational quantum compiling for three-qubit-gate design in quantum dots”, Physical Review A, 111, 042616 (2025).

64. Huaxin He, Fengtao Pang, Yongping Zhang, and Chunlei Qu, “Collective oscillations of Bose-Einstein condensates in a synthetic magnetic field”, Physical Review Research 7, 013219 (2025).

63. Chenhui Wang, Yongping Zhang, and V.V.Konotop, “Transfer of solitons and half-vortex solitons via adiabatic passage”, Physical Review Research 6, 043089 (2024).

62. Hao Lyu,Yuanyuan Chen, Qizhong Zhu, and Yongping Zhang, “Supercurrent-carrying supersolid in spin-orbit-coupled Bose-Einstein condensates”, Physical Review Research 6, 023048 (2024).

61. Zhiqian Gui, Jin Su, Hao Lyu,, and Yongping Zhang, “Tunable nonlinear Landau-Zener tunneling in a spin-orbit-coupled spinor Bose-Einstein condensate”, Physical Review A 110, 043314 (2024).

60. Chenhui Wang and Yongping Zhang, “Stabilizing period-doubled density waves by spin-orbit coupling in Bose-Einstein condensates in optical lattices”, Physical Review A 110, 033307 (2024).

59. Anru Hou, Hao Lyu, Yuanyuan Chen and Yongping Zhang, “Elementary excitations in a spin-orbit-coupled Floquet spinor Bose-Einstein condensate”, Results in Physics, 62, 107809 (2024).

58. Qingxin Gu, Chunlei Qu, and Yongping Zhang, “Adjusting exceptional points using saturable nonlinearities”, Results in Physics 61, 107736 (2024).

57. Wei Mao and Yongping Zhang, “Nonlinear Transport through Parity-Time Symmetric Lattice Potentials”, Symmetry 16, 640 (2024).

56. M.K.Ome, Huaxin He, A. Mukhopadhyay, E.Crowell, S.Mossman, T. Bersano, Yongping Zhang, and P. Engels, “Galilean invariant dynamics in an emergent spin-orbit coupled Zeeman lattice”, Communications Physics 7, 9 (2024).

55. Ling-Zheng Meng, Li-Chen Zhao, Thomas Busch, and Yongping Zhang, “Controlling dark solitons on the healing length scale”, Journal of Physics B 57, 145302 (2024).

54. Hao Lyu, Yongping Zhang, and Thomas Busch, “Thouless pumping and trapping of two-component gap solitons”, Physical Review Research 6, L042010 (2024).

53. Yunjia Zhai and Yongping Zhang, “Patterning by dynamically unstable spin-orbit-coupled Bose-Einstein condensates”, Chaos, Solitons and Fractals 174, 113835 (2023).

52. 翟云佳，陈园园，张永平, “自旋轨道耦合诱导的调制不稳定性”, 光学学报，第43卷，第21期，第2102001页 (2023).

51. Zhiqian Gui, Zhenming Zhang , Jin Su, Hao Lyu, and Yongping Zhang, “Spin-orbit-coupling-induced phase separation in trapped Bose gases”, Physical Review A 108, 043311 (2023).

50. Chenhui Wang, Yongping Zhang, and V.V. Konotop, “Wannier solitons in spin-orbit-coupled Bose-Einstein condensates in optical lattices with a flat band”, Physical Review A 108, 013307 (2023).

49. Yani Zhang, Yuanyuan Chen, Hao Lyu, and Yongping Zhang, “Quantum phases in spin-orbit-coupled Floquet spinor Bose gases”, Physical Review Research 5, 023160 (2023).

48. Jun Hong, Chenhui Wang, and and Yongping Zhang, “Instabilities of a Bose-Einstein condensate with mixed nonlinear and linear lattices”, Physical Review E 107, 044219 (2023).

47. Wei-Lei Xia, Lei Chen,Tian-Tian Li and Yongping Zhang, and Qizhong Zhu, “Metastable supersolid in spin-orbit-coupled Bose-Einstein condensate”, Physical Review A 107, 053302 (2023).

46. Jing Yang and Yongping Zhang, “Spin-orbit-coupled spinor gap solitons in Bose-Einstein condensates”, Physical Review A 107, 023316 (2023).

45. Yuanyuan Chen, Hao Lyu, Yong Xu, and Yongping Zhang, “Elementary excitations in a spin-orbit-coupled spin-1 Bose-Einstein condensate”, New Journal of Physics 24, 073041 (2022).

44. Hao Lyu, Yongping Zhang, and Thomas Busch, “Detection of roton and photon excitations in a spin-orbit-coupled Bose-Einstein condensate with a moving barrier”, Physical Review A 106, 013302 (2022).

43. Keyan Liu, Huaxin He, and Yongping Zhang, “Raman-induced spin-orbit-coupled and spin-tensor-momentum-coupled spin-1 Bose- Einstein condensates in a toroidal trap”, Physics Letters A 448, 128330 (2022).

42. Jin Su, Hao Lyu, and Yongping Zhang, “Self-interfering dynamics in Bose-Einstein condensates with engineered dispersions”, Physics Letters A 443,128218 (2022).

41. Keyan Liu, Huaxin He, Chenhui Wang, Yuanyuan Chen, and Yongping Zhang, “Spin-orbit-coupled spin-1 Bose-Einstein condensates in a toroidal trap: Even-petal-number necklacelike state and persistent flow”, Physical Review A 105, 013323 (2022).

40. Jin Su, Hao Lyu, Yuanyuan Chen, and Yongping Zhang, “Creating moving gap solitons in spin-orbit-coupled Bose-Einstein condensates”, Physical Review A 104, 043315 (2021).

39. Yongping Zhang, Zhu Chen, Biao Wu, Thomas Busch, and Vladimir V. Konotop, “Asymmetric loop spectra and unbroken phase protection due to nonlinearities in PT-symmetric periodic potentials”, Physical Review Letters 127, 034101 (2021).

38. Huaxin He and Yongping Zhang, “Superfluidity breakdown of Rabi-coupled two-component Bose-Einstein condensates in optical lattices”, Physical Review A 103, 053322 (2021).

37. Hao Lyu and Yongping Zhang, “Spin-orbit-coupling-assisted roton softening and superstripes in a Rydberg-dressed Bose-Einstein condensate”, Physical Review A 102, 023327 (2020).

36. Jie Sun, Yuanyuan Chen, Xi Chen, and Yongping Zhang, “Bright solitons in a spin-tensor-momentum-coupled Bose-Einstein condensate”, Physical Review A 101, 053621 (2020).

35. J. Cabedo, J. Claramunt, A. Celi, Y. Zhang , V. Ahufinger, and J. Mompart, “Coherent spin mixing via spin-orbit coupling in Bose gases”, Physical Review A 100, 063633 (2019).

34. Yongping Zhang, Zhiqian Gui and Y. Chen, “Nonlinear dynamics of a spin-orbit-coupled Bose-Einstein condensate”, Physical Review A 99, 023616 (2019).

33. Rui-Fang Zhang, Yongping Zhang, and Lu Li, “Ground states of spin-orbit-coupled Bose-Einstein condensates in the presence of external magnetic field”, Physics Letters A 383, 3175 (2019).

32. Gentaro Watanabe and Yongping Zhang, “Stabilization of nonlinear lattices: A route to superfluidity and hysteresis”, Physical Review A 98, 013625 (2018).

31. A. C. White, Yongping Zhang, and Thomas Busch, “Odd-petal-number states and persistent flows in spin-orbit-coupled Bose-Einstein condensate”, Physical Review A 95, 041604(R) (2017).

30. A. Khamehchi, K. Hossain, M.E. Mossman, Yongping Zhang, Th. Busch, M. M. Forbes, and Peter Engels, “Negative mass hydrodynamics in a spin-orbit-coupled Bose-Einstein condensate”, Physical Review Letters 118, 155301 (2017).

29. Hoi-Yin Hui, Yongping Zhang, Chuanwei Zhang, and V. W. Scaroda, “Superfluidity in the absence of kinetics in spin-orbit-coupled optical lattices”, Physical Review A 95, 033603 (2017).

28. Yongping Zhang, M. E. Mossman, Thomas Busch, Peter Engels, and Chuanwei Zhang, “Properties of spin-orbit-coupled Bose-Einstein condensates”, Frontier of Physics 11, 118103 (2016).

27. K. Sun, C. Qu, Y. Xu, Yongping Zhang, and Chuanwei Zhang, “Interacting spin-orbit-coupled spin-1 Bose-Einstein condensates”, Physical Review A 93, 023615 (2016).

26. Yong Xu, Yongping Zhang, and Chuanwei Zhang, “Bright solitons in a two-dimensional spin-orbit-coupled dipolar Bose-Einstein condensate”, Physical Review A 92, 013633 (2016).

25. Yongping Zhang, Yong Xu, and Thomas Busch, “Gap solitons in spin-orbit-coupled Bose-Einstein condensates in optical lattices”, Physical Review A 91, 043629 (2015).

24. C. Hamner, Yongping Zhang, M. A. Khamehchi, Matthew J. Davis, and P. Engels, “Spin-orbit coupled Bose-Einstein condensates in a one-dimensional optical lattice”, Physical Review Letters 114, 070401 (2015).

23. M. A. Khamehchi, Yongping Zhang, C. Hamner, Th. Busch, and P. Engels, “Measurement of collective excitations in a spin-orbit coupled Bose-Einstein condensate”, Physical Review A 90, 063624 (2014).

22. Chris Hamner, Chunlei Qu, Yongping Zhang, Jiajia Chang, Ming Gong, Chuanwei Zhang, and Peter Engels, “Dicke-type phase transition in a spin-orbit coupled Bose-Einstein condensate”, Nature Communications 5, 4023 (2014).

21. C. Hamner, Yongping Zhang , J. J. Chang, Chuanwei Zhang, and Peter Engels, “Phase winding a two-component BEC in an elongated trap: experimental observation of moving magnetic orders and dark-bright solitons”, Physical Review Letters 111, 264101 (2013). 

20. Yongping Zhang, Gang Chen, and Chuanwei Zhang, “Tunable spin-orbit coupling and quantum phase transition in a trapped Bose-Einstein condensate”, Scientific Report 3, 1937 (2013).

19. Yongping Zhang and Chuanwei Zhang, “Bose-Einstein condensates in spin-orbit coupled optical lattices: flat bands and superfluidity”, Physical Review A 87, 023611 (2013).

18. Yong Xu, Yongping Zhang, and Biao Wu, “Bright solitons in spin-orbit coupled Bose-Einstein condensates”, Physical Review A 87, 013614 (2013).

17. Yongping Zhang, Li Mao, and Chuanwei Zhang, “Mean-field dynamics of spin-orbit coupled Bose-Einstein condensates”, Physical Review Letters 108, 035302 (2012).

16. Yongping Zhang and Chuanwei Zhang, “Quantized anomalous Hall insulator in a nanopatterned two-dimensional electron gas”, Physical Review B 84, 085123 (2011).

15. Linhua Wen, Yongping Zhang, and Jian Feng, “Structure and stability of quasi-two-dimensional boson-fermon mixtures with vortex-antivortex superposed state”, Journal of Physics B: Atom, Molecular and Optical physics 43, 225302 (2010).

14. Gang Chen, Yongping Zhang, Liantuan Xiao, J.-Q. Liang, and Suotang Jia, “Strong nonlinear coupling between an ultracold atomic ensemble and a nano mechanical oscillator”, Optics Express 18, 23016 (2010).

13. Jifeng Jia, Yongping Zhang, Weidong Li, Lu Li, “Optical modes in a nonlinear double-channel waveguide”, Optics Communication 283, 132 (2010).

12. Yongping Zhang and Biao Wu, “Composition relation between gap solitons and Bloch waves in nonlinear periodic systems”, Physical Review Letters 102, 093905 (2009).

11. Yongping Zhang, Zhaoxin Liang, and Biao Wu, “Gap solitons and Bloch waves in nonlinear periodic system”, Physical Review A 80, 063815 (2009).

10. Rui Wang, Cuixi Zhang, Lingmin Kong and Yongping Zhang, “Defect vector gap solitons in photonic lattices”, Optics Communication 281, 4509 (2008).

9. Jian-Ming Wang, Rui Wang, Yong-Ping Zhang, and Jiu-Qing Liang, “Quantum transport through two series Aharonov-Bohm interferometer with zero total magnetic flux”，Chinese Physics 16, 2069 (2007).

8. Jie Ma, Yongping Zhang, Enge Wang, and Biao Wu, “Comment II on “Inconsistency in the application of the adiabatic theorem””, Physical Review Letters 97, 128902 (2006).

7. Juan Gu, Yong-Ping Zhang, Z.-D. Li and Jiu-Qing Liang, “Quantum phase transition of two component Bose-Einstein condensates in optical lattices”，Physics Letters A 335, 310 (2005).

6. Ying-Fang Gao,Yong-Ping Zhang and Jiu-Qing Liang, “Spin-polarized transport through a double Aharonov-Bohm ring in the presence of magnetic impurity”，Chinese Physics 14, 196 (2005).

5. Ying-Fang Gao, and Yong-Ping Zhang, “The effect of connected multi-ring impurity scattering on quantum transport”，Chinese Physics Letters 22, 1045 (2005).

4. Yong-Ping Zhang, Hui Yu, Ying-Fang Gao, and J.-Q. Liang “Quantum transport through a double Aharonov-Bohm interferometer in presence of Andreev reflection”, Physical Review B 72, 205310 (2005).

3. Yong-Ping Zhang, Ying-Fang Gao, and J.-Q. Liang, “Measurement induced dephasing and suppression of persistent current in a lattice ring”, Physics Letters A 346, 115 (2005).

2. Ying-Fang Gao, Yong-Ping Zhang and Jiu-Qing Liang, “Transport of spin-polarizes current through a mesoscopic ring with two leads induced by Aharonov-Bohm and Aharonov-Casher phases”, Chinese Physics Letters 21, 2093 (2004).

1. Yong-Ping Zhang and J.-Q. Liang, “Spin-polarized quantum transport through a quantum dot in time-varying magnetic field”, Physics Letters A 329, 55 (2004).

代表性科研项目

毕业学生

其他