张智明

                 个人简历1450961520384704.jpg
姓名:张智明
教研室名称:现代光学教研室
职称:教授
办公地点:理4栋412室
电子邮箱:
zhangzhiming@m.scnu.edu.cn
最后学位及授予单位:博士、中科院安光所


研究方向:量子光学、量子信息、冷原子物理
主讲课程:量子光学、量子力学
出版专著:《量子光学》(科学出版社,2015年2月)
科研项目选录:
1) 主持国家自然科学基金面上项目“原子相干性和质心运动量子性对微脉塞性质的影响”(No.10074046, 2001.1-2003.12) 。
2) 主持国家自然科学基金面上项目“超冷原子泵浦的双模微脉塞之研究” (No.60178001, 2002.1-2004.12) 。
3) 主持国家自然科学基金面上项目“利用类微脉塞系统制备、传输和测量光场和原子的量子态”(No.60578055, 2006.1-2008.12) 。
4) 参加国家“973”计划项目“基于核自旋量子调控的固态量子计算研究” (No.2007CB925204, 2007-2011)。
5) 参加国家“973”计划项目“量子信息基本逻辑单元和关键器件的研究” (No.2009CB929600)之课题四:“基于表面等离子体的量子信息传输单元研究” (No.2009CB929604,2009-2010)。
6) 主持国家自然科学基金面上项目“基于交叉克尔型非线性相互作用的量子操控” (No.60978009, 2010.1-2012.12)。
7) 参加国家“973”计划重大和主题项目“全固态量子芯片研究”(No. 2011CBA00200) 之课题三: “基于表面等离子体的量子信息传输单元研究” (No.2011CBA00203,2011-2015)
8) 主持国家自然科学基金重大研究计划项目“可控波形单光子的产生、探测及其在量子密钥分发中的应用”(No.91121023,2012.1-2014.12)。
9) 参加国家“973”计划项目“基于自旋的量子计算原理和方法的理论研究”(No.2013CB921804,2013-2017)。
10) 主持教育部高等学校博士学科点专项科研基金(博导类)“基于魔幻态的容错量子计算通用性研究”(No.20124407110009,2013.1-2015.12)。
11) 参加教育部创新团队发展计划项目“量子物理与量子操控研究”(No.IRT1243,2013-2015)。
12) 主持国家自然科学基金面上项目“冷原子中四波混频产生的纠缠光子对的时空波形特性”(No. 61378012, 2014.1-2017.12)。
13) 主持国家自然科学基金面上项目“腔量子电动力学与腔光力学的融合” (No. 11574092, 2016.1-2019.12)。
发表论文选录: 

1. Zhi-ming Zhang, Lei Xu, Jin-lin Chai, and Fu-li Li, "A new kind of higher-order squeezing of radiation field", Phys.Lett.A, 1990, 150(1): 27-30.

2. Chin-Lin Chai, Fu-Li Li, and Zhi-Ming Zhang, "Effect of atomic cooperation on emission spectra in a cavity", Phys.Lett.A, 1990, 150(2): 85-88.

3. Zhi-ming Zhang, Lei Xu, and Jin-lin Chai, "Squeezing in the N-photon interaction of two atoms with a squeezed light", Phys.Lett.A, 1990, 151(1,2): 65-68.

4. Zhi-ming Zhang, Lei Xu, Fu-li Li, and Jin-lin Chai, "Long-time behaviour of field fluctuation in the M-photon Jaynes-Cummings model", Z.Phys.B, 1991,84: 329-331.

5. Lei Xu, Zhi-ming Zhang, and Jin-lin Chai, "Interaction of two two-level atoms with a squeezed light",  J.Opt.Soc.Am.B, 1991, 8 (5): 1157-1162.

6. Chin-lin Chai, Fu-li Li, and Zhi-ming Zhang,, "Amplitude-squared squeezing of field in interaction of an M-level atom with a single mode of cavity field", J.Phys.B: At.Mol.Opt.Phys. 1991, 24 : 3309-3313.

7. 李福利,柴晋临,张智明,"构造光子数湮没算子高次幂的正交本征态的新方法", 《物理学报》, 1991, 40 (7): 1058-1064.

8. Lei Xu, Zhi-ming Zhang, and Zhen-Fei Luo, "Emission spectrum of a pair of two-level atoms in a cavity", J.Phys.B:At.Mol.Opt.Phys. 1992, 25 : 3075-3084.

9. H.X.Meng, C.L.Chai, and Z.M.Zhang, "Phase dynamics of coherent light in the M-photon Jaynes- Cummings model", Phys.Rev.A, 1992, 45 (3): 2131-2134.

10. 徐磊,罗振飞,徐至展,张智明,"原子间偶极相互作用对其在腔场中辐射谱的影响",《光学学报》, 1992, 12 (12): 1089-1093.

11. Zhi-Ming Zhang, Lei Xu, and Zhen-Fei Luo, "Effects of dipole-dipole interaction on atomic dynamics in the M-photon processes", Phys.Rev.A, 1993, 47 (2): 1557-1559.

12. H.X.Meng, C.L.Chai, and Z.M.Zhang, "Phase and squeezing properties of two copropagating fields in a Kerr medium", Phys.Rev.A, 1993, 48 (4): 3219-3224.

13. Zhen-Fei Luo, Zhi-Zhan Xu, Lei Xu, and Zhi-Ming Zhang, "Two-atom emission spectrum including dispersion force", J.Phys.B: At.Mol.Opt.Phys., 1993, 26: 1301-1305.

14. Lei Xu, Zhen-Fei Luo, and Zhi-Ming Zhang, "Validity of the effective Hamiltonian for the degenerate Raman Process",  J.Phys.B: At.Mol.Opt.Phys., 1994, 27: 1649-1656.

15. Lei Xu, and Zhi-Ming Zhang, "Modified effective Hamiltonian for the degenerate Raman process", Z.Phys.B, 1994, 95: 507-510.

16. Lin-sheng He, Zhi-ming Zhang, and Hai-he Jiang, "Source-radiation field relation for two-photon emission of a two-level atom", Phys.Lett.A, 1995, 200: 149-155.

17. Z.M.Zhang et al., "Amplitude Nth-power squeezing in a normal squeezed vacuum", Chin.J.Lasers B, 1996, 5 (1): 61.

18. Zhiming Zhang, Jinfang Pan, Lei Xu, "Effects of ac Stark shift on the amplitude Nth-power squeezing in the degenerate Raman process",《光子学报》, 1996, 25(5): 385-393.

19. 张智明,"非简并Raman耦合模型的改进型有效哈密顿量",《量子光学学报》, 1996, 2(1): 32-36.

20. 张智明,何林生,"双原子非简并Raman过程中原子与腔场的动力学", 《量子电子学报》, 1996, 13(3): 239-244.

21. 张智明,何林生,"两个原子与双模腔场的多光子相互作用-场和原子的动力学性质", 《光学学报》, 1996, 16(9): 1268-1270.    

22. 何林生,冯勋立,吴世熊,张智明,夏宇兴,"压缩真空库场中二能级原子的非简并双光子荧光谱",《物理学报》 , 1998, 47(2): 219-231.

23. 张智明, 何林生, 周士康,"热库中有源LC电路的量子理论", 《量子电子学报》, 1998,15(3): 241-244

24. 张智明,何林生, 周士康,"有源RLC电路的量子化", 《量子电子学报》,1998,15(4): 348-351

25. Zhi-Ming Zhang,Lin-Sheng He, Shi-Kang Zhou, "A quantum theory of an RLC circuit with a source",  Phys.Lett.A,1998,244(4): 196-200

26. Zhi-Ming Zhang,Lin-Sheng He, "Quantum theory of the micromaser with ultra-cold -type three-level atoms”, Opt.Commun.1998, 157(1/6): 77-82.

27. Z.M.Zhang et al.,"Quantum theory of the two-photon mazer: Emission probability", Phys.Rev.A. 1999, 59(1): 808-813.

28. Z.M.Zhang et al.,"Quantum theory of the two-photon mazer: general theory and emission probability ", Chin.Phys.Lett.1999, 16(1): 26-28.

29. Z.M.Zhang et al., "Interaction of a -type three-level atom with a two-mode field and a two-mode Raman-coupled interaction", Acta Phisica Sinica(Overseas Edition),1999, 8(2): 136-142.

30. 张智明等,“研究混沌系统同步问题的一种解析方法”, 《光电子.激光》, 1999, 10(3): 264-266.

31. Z.M.Zhang et al., “Transmission probability of a ultracold three-level atom through a micromaser cavity”, Chin.Phys.Lett.1999, 16(8): 568-570.

32. Z.M.Zhang et al., “Photon Statistics of the micromaser with ultra-cold -type three-level atoms”, Acta Phisica Sinica(Overseas Edition), 1999, 8(8): 571-576

33. Z.M.Zhang et al., "Quantum theory of the micromaser with ultra-cold cascade three-level atoms”, J.Phys.B: At.Mol.Opt.Phys. 1999, 32(16): 4013-4028.

34. Z.M.Zhang et al., “Velocity selection for ultracold three-level atoms using two micromaser cavities", Phys.Rev.A, 1999, 60(4): 3321-3323. 

35. Z.M.Zhang et al., "Effects of dissipations on fluctuations in an RLC circuit with a source in a thermal bath", Chin. J. Lasers B: 2000,9(1): 65-70.

36. 张智明等,“超冷三能级原子注入微脉塞的光谱性质”, 《上海交大学报》,2000, 34(8): 1101-1104.

37. Z.M.Zhang et al., “Quantum theory of the 3-level-atom mazer”; in Frontiers of Laser Physics and Quantum Optics, Edited by Z.Z.Xu, S.W.Xie, S.Y.Zhu and M.O.Scully (Springer, Berlin, 2000), pp.623-626.

38. Z.M.Zhang et al.,  "Quantum theory of the micromaser with ultracold cascade three-level atoms II: Spectral properties". J.Phys.B: At.Mol.Opt.Phys. 2000, 33(11): 2125-2133. 

39. Z.M.Zhang et al.,  "Spectrum of the micromaser injected with Λ-type three-level atoms", Chinese Physics, 2000, 9(12): 900-904.

40. K.Q.Chu, W.Q.Liang, and Z.M.Zhang, “Effects of the atomic coherence on the spontaneous emission of a V-type three-level atom ", Acta Photonica Sinica, 2000,  29(11): 982-984.

41. Z.M.Zhang et al., “Atomic coherence in the micromaser injected with slow V-type three-level atoms: Emission probability”, Chin.Phys.Lett.  2001, 18(2): 223-224.

42. W.Q.Liang, Z.Q.Niu, Z.M.Zhang, and S.W.Xie, “ V-type three-level-atom mazer with atomic coherence: Velocity selection”, J.Phys.B: At.Mol.Opt.Phys. 2001, 34(22): 4427-4436.

43. 梁文青, 张智明,谢绳武,“超冷V型三能级原子注入的微波激射:原子相干性对腔场光子统计的影响”, 《物理学报》, 2001, 50(12): 2345-2355.

44. Z.M.Zhang et al., “Dynamics of an ultracold cascade three-level atom interacting with a two-mode cavity field”, J. Opt. B: Quant. and Semiclass. Opt.  2002, 4(1): 30-36.

45. J.Xiong, K.Q.Chu, and Z.M.Zhang, “Transmission probability of an ultracold atom in presence of atomic coherence”, Chin. Phys. Lett. 2002, 19(3): 331-333. 

46. 储开芹, 梁文青, 张智明,“超冷V型三能级原子注入的微脉塞的光谱性质”,《光学学报》, 2002, 22(5):523-529.  

47. J.Xiong and Z.M.Zhang, “Emission probability and photon statistics of a coherently driven mazer ”, J.Phys.B: At.Mol.Opt.Phys. 2002, 35(9): 2159-2172. 

48. 熊锦,牛中奇,张智明,“原子质心运动的量子效应对光场量子噪声压缩的影响”,《物理学报》,2002,51(10),2245-2248.

49. J.Xiong and Z.M.Zhang, “Emission probability of the cascade three-level-atom mazer with injected atomic coherence”, Chin. Phys. Lett. 2002, 19(11): 1621-1624.

50. Z.M.Zhang, “ A simple scheme for measuring the Wigner function of cavity fields”, Chin. Phys. Lett. 2003, 20(2): 227-229.

51. X.L.Feng, Z.M.Zhang et al.,  “Entangling distant atoms by interference of polarized photons”, Phys.Rev.Lett. 2003, 90(21): 217902. (2003年5月)

52. P.Lougovski, E.Solano, Z.M.Zhang et al., “Fresnel representation of the Wigner Function: An Operational approach” , Phys.Rev.Lett. 2003, 91(1): 010401. (2003年6月)

53. J.Xiong and Z.M.Zhang, “Effects of the center-of-mass motion on the population trapping of ultracold atoms”, Chin. Phys. Lett. 2003, 20(11): 1950-1953.

54. W.Q.Liang, Z.M.Zhang, and S.W.Xie,“Two-mode mazer injected with V-type three-level atoms”, Chinese Physics, 2003, 12(12): 1399-1413. 

55. Z.M.Zhang, “利用微脉塞重构腔场的Wigner函数”,《物理学报》,2004,53(1):70-74.

56. Z.M.Zhang,  “Measuring the Wigner functions of two-mode cavity fields and testing the Bell's inequalities”, Chin. Phys. Lett. 2004, 21(1): 5-8.

57. 张智明,“微脉塞研究进展”,《量子电子学报》,2004, 21(2): 224-236.(应邀撰写的综述评论性文章)。

58. Z.M.Zhang, “Recent progress of quantum-state reconstruction of electromagnetic fields”, Mod.Phys.Lett.B, 2004, 18(10): 393-409.(应邀撰写的综述评论性文章)。

59. C.H.Yuan and Z.M.Zhang,“Reconstructing the Wigner function of field-modes in two spacially-separated cavities”, Mod.Phys.Lett. B, 2004, 18(23):1189-1194.

60. C.H.Yuan and Z.M.Zhang,“Transmission probability of the two-mode MAZER with injected atomic coherence”,Chinese Physics,2005, 14(1): 144-148.

61. 严明,罗售余,张智明,“连续CO2激光脉冲制作长周期光纤光栅的研究”,《光子学报》,2005,34(5):659-661。

62. 胡明明,欧永成,张智明,“Emission probability of a non-degenerate two-photon mazer”,《光子学报》2005,34(12):1872-1875。

63. 欧永成,袁春华,张智明,“Quantum state transfer between two distant atoms by connecting two cavities via optical fibres”,Chin.Phys.Lett., 2005,22(12): 3001-3004.

64. 欧永成,袁春华, 张智明, “Preparation of the entanglement states with distant atoms trapped in separate cavities”, J.Phys.B: At.Mol.Opt.Phys. 2006, 39(1): 7-15.

65. 袁春华,欧永成, 张智明, “A scheme for preparation of W-type entangled coherent state of three cavity field”, Chin. Phys. Lett., 2006, 23(7): 1695-1697.

66. 袁春华,欧永成, 张智明, “Entanglement swapping with atoms separated by long distance ”, Chin.Phys., 2006, 15(8):1793-1797.

67. 袁春华,欧永成, 张智明, “Generation of quantum switch and nonlocal fields with an external field in a high quality dispersive cavity”, Opt.Commun., 2006, 267, 282-285.

68. 陈银花,於亚飞,张智明,“Entangled states used in remote information concentration and their properties”, Chin.Phys.Lett.2006,23(12): 3158-3160.

69. 张智明, “One-atom maser and One-atom laser:Experimental platforms for cavity quantum electrodynamics”, 《量子光学学报》,2006, 12(4): 194-206. (应邀撰写的综述评论性文章)。

70. Zhi-Ming Zhang*,Jian Yang,and Ya-Fei Yu,“A scheme for generating entangled squeezed states based on cavity QED”, Chin.Phys.Lett., 2007, 24(2): 352-354.

71. Z.M.Zhang*, A. H. Khosa,M. Ikram, and M. S. Zubairy,“Generating entangled states of continuous variables via cross-Kerr nonlinearity”, J.Phys.B: At.Mol.Opt.Phys. 2007, 40(10): 1917-1924. (2007年5月)

72. Jian-lang Li, Ken-ichi Ueda, Mitsuru Musha, Akira Shirakawa, and Zhi-ming Zhang , “Converging-axicon-based radially polarized ytterbium fiber laser and evidence on the mode profile inside the gain fiber ”, Opt. Lett., 2007, 32(11): 1360-1362.

73. Ming Yan, Shouyu Luo, Li Zhan, Zhiming Zhang, Yuxing Xia, “Triple-wavelength switchable Erbium-doped fiber laser with cascaded asymmetric exposure long-period fiber gratings ”, Opt Express, 2007, 15(11): 3685-3691.

74. Zhi-Ming Zhang*,Jian Yang,and Ya-Fei Yu,“Generating entanglement of photon-number states with coherent light via cross-Kerr nonlinearity”,J.Phys.B: At.Mol.Opt.Phys.,2008, 41(2): 025502. 

75. Zhi-Ming Zhang* and Ya-Fei Yu, “Analytic solutions for degenerate Raman-coupled model”, Chin.Phys. 2008,17(4): 1242-1247.

76. Jian Yang, Ya-Fei Yu, Zhi-Ming Zhang*, and Song-Hao Liu, “Realization of universal quantum cloning with SQUID qubits in a cavity”, Phys.Rev.A, 2008, 77(3): 034302.

77. 杨健,任珉,於亚飞,张智明*,刘颂豪,“利用交叉克尔非线性效应实现纠缠转移”,《物理学报》,2008,57(2): 887-891.

78. Fa-Qiang Wang and Zhi-Ming Zhang*, “Phase Evolution of Coherent Light in a Simple Polariton Model”, Chin.Phys.Lett., 2008, 25(3): 821-824. 

79. 於亚飞,张智明*,束缚纠缠态量子秘密共享的不安全性分析,《光学学报》,2008, 28(3):556-559.

80. Ming Yan, Shouyu Luo; Li Zhan; Yilei Wang; Yuxing Xia; Zhiming Zhang, “Step-changed period chirped long-period fiber gratings fabricated by CO2 laser”,Opt.Commun., 2008, 281(10): 2784-2788.

81. Xin-Ding Zhang, Z.D. Wang, Liang-Bin Hu, Zhi-Ming Zhang,and Shi-Liang Zhu, , “Detecting unambiguously non-Abelian geometric phases with trapped ions”,  New J.Phys., 2008, 10: 043031.

82. Ya-Fei Yu, Zhi-Ming Zhang,and Guang-Can Guo, “Writing Quantum Data into One-Way Quantum Computer by Fusion Gate”, Int. J. Theor. Phys. (International Journal of Theoretical Physics),2008,47:1709-1712.

83. 艾凌艳,杨健,张智明*,“基于二维囚禁离子实现C-NOT门、交换门和相位门”,《物理学报》,2008,57(9):5589-5592.

84. Fa-Qiang Wang, Zhi-Ming Zhang*, and Rui-Sheng Liang,“Finite-time decoherence could be suppressed efficiently in a photonic crystal”, Phys.Rev.A, 2008,78(4), 042320. 

85. Fa-Qiang Wang, Zhi-Ming Zhang*, and Rui-Sheng Liang,“Decoherence of two qubits in a non-Markovian reservoir without the rotating-wave approximation”, Phys.Rev.A, 2008,78 (6),062318.

86. 李静, 於亚飞,张智明*, “对线性光学簇态融和门的简化”,《量子光学学报》,2008, 14(3):277-281

87. AI Ling-Yan, DU Gang,ZHU Shi-Liang,Zhi-Ming Zhang*, “Teleporting an Unknown Two-qubit Entangled State via Ion-Trap Systems” , Chin.Phys.Lett., 2009, 26(1): 014210

88. Fa-Qiang Wang, Zhi-Ming Zhang*, and Rui-Sheng Liang, “Decoherence of two-qubit system in a non-Markovian squeezed reservoir”, Chinese Physics B, 2009, 18(2): 597-603.

89. Ya-Fei Yu, Zhi-Ming Zhang*, “Proof for the insecurity of quantum secret sharing based on the Smolin bound entangled states”, Chinese Physics B, 2009, 18(4): 1342-1345.

90. Feng Mei,Ya-Fei Yu, Zhi-Ming Zhang*,“Decoherence–free quantum memory for photonic state using atomic ensembles”, Int.J.Quant.Inf. 2009, 7(4): 811-820.

91. DU Gang, LAI Bo-Hui, YU Ya-Fei, and ZHANG Zhi-Ming*, “Schemes for Generating Cluster States via Cavity Systems”,  CHIN. PHYS. LETT. 2009, 26(10): 104201.

92. [66]. Feng Mei, Mang Feng, Ya-Fei Yu, Zhi-Ming Zhang*, “Scalable quantum information processing with atomic ensembles and flying photons”,  Phys.Rev.A, 2009, 80(4):042319

93. Lin-Lin Xu, Ya-Fei Yu, Zhi-Ming Zhang*, “Scheme for the Preparation of Entanglement of Atomic Ensembles”, Int.J.Quant.Inf.,2009, 7(8): 1459-1467

94. Feng Mei,Ya-Fei Yu, Zhi-Ming Zhang*, “Deterministic quantum teleportation and information splitting via a peculiar W-class state”, Chin. Phys. B, 2010, 19(2): 020308

95. Dan-Dan Lv, Hong Lu, Ya-Fei Yu, Xun-Li Feng,Zhi-Ming Zhang *,“Universal Quantum Cloning Machine in Circuit Quantum Electrodynamics”, Chin.Phys.Lett., 2010,27(2):020302.

96. 赖柏辉, 杜刚, 於亚飞,张智明*,刘颂豪, “利用交叉克尔非线性产生四光子偏振态簇态”, 物理学报,2010,59(2):1017-1020.

97. Haiyan Lv,Ya-Fei Yu, Zhi-Ming Zhang*, ”One step implementation of an N-qubit quantum phase gate through a double Raman passage”, Chin. Phys. B, 2010, 19(3): 034205.

98. Jin-Dong Wang, Zheng-JunWei, Hui Zhang, Xiao-Juan Qin, Xiao-Bao Liu, Zhi-Ming Zhang, Chang-Jun Liao and Song-Hao Liu, “Efficient quantum key distribution via single-photon two-qubit states”,J.Phys.B: At.Mol.Opt.Phys.,2010, 43(9): 095504.

99. Feng Mei, Ya-Fei Yu, Xun-Li Feng, Shi-Liang Zhu, Zhi-Ming Zhang*,“Optical quantum computation with cavities in the intermediate coupling region”,Euro.Phys.Lett., 2010,91: 10001.

100. Jian-Qi Zhang, Lin-Lin Xu, Zhi-Ming Zhang*,“Creating W-type entangled states in quantum dot systems”,Phys.Lett.A,2010, 374: 3818-3822.

101. Li-Fang Zhao, Bo-Hui Lai, Feng Mei, Ya-Fei Yu, Xun-Li Feng, Zhi-Ming Zhang*,“Generation of a four-particle entangled state via cross-Kerr nonlinearity”, Chin. Phys. B, 2010, 19(9): 094207.

102. Feng Mei, Ya-Fei Yu, Xun-Li Feng, Zhi-Ming Zhang*,and C. H. Oh,“Quantum Entanglement Distribution With Hybrid Parity Gate”, Phys.Rev.A, 2010, 82(5) :052315.

103. Zhien Lu, Zhi-Ming Zhang*, “Defect solitons supported by the interface between simple lattices and superlattices”,Physics Letters A ,2011,375: 2023–2028.

104. Zhien Lu, Zhi-Ming Zhang*,“Surface line defect solitons in square optical lattice”,Optics Express, 2011,19(3): 2410-2416.

105. Zhien Lu, Zhi-Ming Zhang*,“Defect solitons in parity-time symmetric superlattices”, Optics Express, 2011,19(12): 11457-11462.

106. Shi Yan-Li, Mei Feng, Yu Ya-Fei, Zhi-Ming Zhang*, “Controlled phase gate based on an electron floating on Helium”, Chin.Phys.Lett. 2011, 28(5):050302.

107. Feng Mei, Shi-Liang Zhu, Xun-Li Feng, Zhi-Ming Zhang*, and C. H. Oh,“Probing Half-odd Topological Number with Cold Atoms in a Non-Abelian Optical Lattice”, Phys.Rev.A, 2011,84(2):023622.

108. Jian-Qi Zhang, Ya-Fei Yu, Zhi-Ming Zhang*, “An unconventional geometric phase gate with two nonresonant quantum dots trapped in a photonic crystal cavity”,J.Opt.Soc.Am. B, 2011,28 (8):1959-1963.

109. 范学涛,於亚飞,张智明*, “基于五离子最大纠缠态的优化隐形传态和超密集编码”,   量子光学学报, 2011, 17(2): 90-95.

110. LI Bin, FENG Xun-Li, Zhi-Ming Zhang*,“Frequency up- and down- conversions in a two-mode cavity”,光子学报, 2011,40(8):1161-1165 

111. Li Yu-Ning,  Mei Feng,  Yu Ya-Fei,  Feng Xun-Li,  Zhang Zhi-Ming*,“Long-distance quantum state transfer through cavity-assisted interaction”, Chin. Phys. B, 2011, 20(11): 110305R.

112. Wang Xiao-Xia, Zhang Jian-Qi, Yu Ya-Fei, and Zhang Zhi-Ming*,“Controlled phase gates based on two nonidentical quantum dots trapped in separate cavities”, Chin. Phys. B, 2011, 20(11): 110306.

113. Ai Ling-Yan, Shi Yan-Li, and Zhang Zhi-Ming*, “Preparation of cluster states with trapped electrons on a liquid helium surface”, Chin. Phys. B, 2011, 20(10): 100303.

114. Feng Mei, Shi-Liang Zhu, Zhi-Ming Zhang*, C. H. Oh*, and N. Goldman*, “Simulating Z2 topological insulators with cold atoms in a one-dimensional optical lattice”, Phys.Rev.A, 2012, 85(1): 013638.

115. Yan-Li Shi,Feng Mei,Ya-Fei Yu,Xun-Li Feng,Zhi-Ming Zhang*,“Generation of a genuine four-particle entangled state of trap ions”,Quantum Information Processing, 2012, 11(1): 229-234.

116. Li-Yun Hu*, Fang Jia, and Zhi-Ming Zhang*, “Entanglement and nonclassicality of photon-added two-mode squeezed thermal state”, J. Opt. Soc. Am. B, 2012, 29(6): 1456-1464.

117. Li-Yun Hu* and Zhi-Ming Zhang*, "Nonclassicality and decoherence of photon-added squeezed thermal state in thermal environment", J. Opt. Soc. Am. B, 2012, 29(4): 529-537.

118. Li-Yun Hu*, Shuai Wang, and Zhi-Ming Zhang*, “Photon number distribution of two-mode squeezed thermal states by entangled state representation”, 2012, Chin. Phys. B, 2012, 21(6): 064207.

119. Li-Yun Hu* and Zhi-Ming Zhang*, “New approach for normalization and photon-number distributions of photon-added (-subtracted) squeezed thermal states”, Chin.Opt.Lett., 2012, 10(8): 082701.

120. Shi Hui-Min,Yu Ya-Fei,Zhang Zhi-Ming*, “ Three-qubit quantum-gate operations with a SQUID in a cavity” ,  Chin. Phys. B, 2012, 21(6):064205.

121. Ping Yang, Ping Zou, and Zhi-Ming Zhang*, “Adiabatic approximation in the ultrastrong-coupling regime of an oscillator and two qubits”, 2012, Phys.Lett.A, 376(45): 2977-2981.

122. Yuan-Yuan Xu,Xun-Li Feng*,and Zhi-Ming Zhang,“Improvement on controlled-controlled-NOT operation-based entanglement purification protocol”,Chin.Opt.Lett., 2012, 10(4): 042701.

123. Yan Long, Feng Xun-Li*, Zhang Zhi-Ming, Liu Song-Hao, “An Extra Phase for Two-Mode Coherent States Displaced in Noncommutative Phase Space”, 2012, Chin.Phys.Lett. , 29(4): 041102.

124. Ya-Fei Yu, Chuan-Jia Shan, Feng Mei, Zhi-Ming Zhang, “Simulation and detection of massive Dirac fermions with cold atoms in one-dimensional optical lattice”, 2012, Physica B, 407, 3839–3840.

125. C.Q. Wang, Y.F. Yu, and Z.M. Zhang, “Quantum gate operations in hybrid superconducting circuit”, Euro.Phys.J.D, 2012, 66(11):307.

126. 张智明*,“单原子操控-2012年诺贝尔物理学奖得主Haroche科学成就简介”,量子光学学报,2012,18(04):303-311。

127. Hu Li-Yun*, Fan Hong-Yi, Zhang Zhi-Ming, “New formulas for normalizing photon-added (-subtracted) two-mode squeezed thermal states”, Chin. Phys. B, 2013, 22(3): 034202.

128. Li-Yun Hu*, Zhi-Ming Zhang, “Statistical properties of coherent photon- added two-mode squeezed vacuum and its inseparability”, J. Opt. Soc. Am. B, 2013, 30(3): 518-529.

129. Hui Yan*, Kai-Yu Liao, Jian-Feng Li, Yan-Xiong Du, Zhi-Ming Zhang, and Shi-Liang Zhu*, “Bichromatic electromagnetically induced transparency in hot atomic vapors”, Phys.Rev.A, 2013, 87: 055401.

130. LI Shu-Qing, YU Ya-Fei*, ZHANG Zhi-Ming*, “Determining the state of a three-level atom by interaction with two radiation fields”, SCIENCE CHINA: Physics, Mechanics & Astronomy, 2013, 56(8): 1478–1486.

131. 吴琴, 张智明*,“Kerr介质中耦合双原子的纠缠特性”,《物理学报》,2013,62(17):174206.

132. 程广展,梅锋,邹平,於亚飞,张智明*,“基于腔辅助相互作用的远距离信息传递”,《量子光学学报》,2013,19(3):212。

133. 於亚飞,张智明,“T型魔幻态纯化速度之研究”,《量子光学学报》,2013,19(4):330-334.

134. 王进,魏正军,王赓,郭莉,王金东,张智明,郭健平,郭邦红,刘颂豪,“数字平均对红外单光子探测器中温度控制系统信噪改善比的影响”,《物理学报》,2013,62(17):014203.

135. 李艾莉,於亚飞,张智明*,“基于腔输入-输出过程的Bell态分析器和GHZ态分析器”, 《量子电子学报》,2014, 31(1): 69-74.

136. Peng-Cheng Ma, Yin Xiao, Ya-Fei Yu, and Zhi-Ming Zhang*,“Microwave field controlled slow and fast light with a coupled system consisting of a nanomechanical resonator and a Cooper-pair box”, Optics Express, 2014, 22(3): 2621-2628. 

137. Yin Xiao, Ya-Fei Yu and Zhi-Ming Zhang* ,“Controllable optomechanically induced transparency and ponderomotive squeezing in an optomechanical system assisted by an atomic ensemble”, Optics Express, 2014,22(15):17979-17989.

138. Wu Qin and Zhang Zhi-Ming*, “Entanglement of two two-level atoms trapped in coupled cavities with a Kerr medium”, Chin. Phys. B, 2014, 23(3): 034203.

139. Yan Xiang,Yu Ya-Fei and Zhang Zhi-Ming*,Generation of hyperentangled four-photon cluster state via cross-Kerr nonlinearity,Chin. Phys. B,2014,23(6):060306. 

140. 刘瑞,於亚飞,张智明*,“利用冷原子系综制备窄线宽三光子频率纠缠态”,物理学报,2014,63(14):144203.

141. Li-Yun Hu*, Hao-Liang Zhang, Yin-Quan Hu, Zhi-Ming Zhang, “Enhancing entanglement of entangled coherent states by single-mode coherent superposition of photon subtraction and addition”,Optik, 2014, 125: 61-63.

142. Yan Xiang,Yu Ya-Fei and Zhang Zhi-Ming*,“Entanglement concentration for a non-maximally entangled four-photon cluster state”, Front.Phys. 2014, 9 (5): 640-645.

143. Peng-Cheng Ma, Jian-Qi Zhang*, Yin Xiao, Mang Feng*, and Zhi-Ming Zhang*, “Tunable double optomechanically induced transparency in an optomechanical system”, Phys. Rev.A, 2014, 90:043825. 

144. Zhao-Yue Dong, Ning-Na Yu, Zheng-Jun Wei, Jin-Dong Wang*, and Zhi-Ming Zhang*, “An attack aimed at active phase compensation in one-way phase-encoded QKD systems”, Eur.Phys.J.D, 2014,68: 230,DOI: 10.1140/epjd/e2014-40693-6.

145. Kai-Yu Liao, Hui Yan*, Jun-yu He, Wei Huang, Zhi-Ming Zhang and Shi-Liang Zhu*, “Experimental Generation of Narrow-Band Paired Photons: from Damped Rabi Oscillation to Group Delay”, Chin. Phys. Lett. 31, 034205 (2014)

146. Kaiyu Liao, Hui Yan*, Junyu He, Shengwang Du, Zhi-Ming Zhang, and Shi-Liang Zhu*, “Subnatural-Linewidth Polarization-Entangled Photon Pairs with Controllable Temporal Length ”, Phys. Rev. Lett.,2014,112:243602; arxiv: 1402. 2530.

147. Sheng Liu,Chuan-Jia Shan,Zhi-Ming Zhang,Zheng-Yuan Xue*, “Simulation of the Majorana equation in circuit QED”,Quant.Inf.Process. 2014, 13: 1813.

148. 吴向艳,徐艳玲,於亚飞*, 张智明,“利用非稳定子态容错实现密集旋转操作”,物理学报,2014,63(22):220304.

149.  Chen Wen-Fen, Wei Zheng-Jun*,  Guo Li, Hou Li-Yan,Wang Geng, Wang Jin-Dong , Zhang Zhi-Ming ,Guo Jian-Ping, and Liu Song-Hao, “Auto bias control system for the electro-optic modulator used in a quantum key distribution system”,Chin. Phys.B, 23 (2014) 000001.

150. Yu Ningna,Dong Zhaoyue,Wang Jindong* ,Wei Zhengjun,Zhang Zhiming,“Impact of spontaneous Raman scattering on quantum channel wavelength-multiplexed with classical channel in time domain”,Chin.Opt.Lett. 2014, 12(10):102703.

151. 王金东, 张智明*,“量子密钥分发系统的现实无条件安全性”,量子电子学报, 2014,  31(4) :449-458。 

152. Qin Wu, Jian-Qi Zhang, Jin-Hui Wu, Mang Feng, and Zhi-Ming Zhang*,“Tunable multi-channel inverse optomechanically induced transparency and its applications”,Optics Express, 2015, 23(14): 18534- 18547.

153. Feng Xiao-Min, Xiao Yin, Yu Ya-Fei, and Zhang Zhi-Ming*,“Ponderomotive squeezing and entanglement in a ring cavity with two vibrational mirrors”, Chin. Phys.B, 2015,24(05):050301.

154. Wu Qin, Xiao Yin, and Zhang Zhi-Ming*,“Entanglements in a coupled cavity–array with one oscillating end-mirror”,Chin. Phys.B, 2015,24(10):104208.

155. Kai-Le Sun,Jun Chen,Fa-Qiang Wang,Ya-Fei Yu,Zhang Zhi-Ming*,“Entanglement Dynamics of Two Spins in Initially Correlated Wheel-Shaped Spin Baths”, Int. J. Theor. Phys., 2016, 55:730. DOI 10.1007/s10773-015-2710-3. Published online: 30 June 2015.

156. 郭永宾,肖银,於亚飞,张智明*,“非线性光机械系统中的双稳性与纠缠” ,光学学报, 2015, 35(10):1027002.

157.  陈俊,於亚飞*,张智明,“利用信息流方法优化多激发自旋链中的量子态传输”, 物理学报,2015,64(16):160305. 

158.  杜亚男,解文钟,金璇,王金东*,魏正军,秦晓娟,赵峰,张智明,“基于弱相干光源测量设备无关量子密钥分发系统的误码率分析” ,物理学报,2015,64(11):110301.

159. Ping Zou*, Zhi-Ming Zhang*, and Wei Song, “Direct measurement of general quantum states using strong measurement”,Phys. Rev.A, 2015, 91: 052109.

160. Ping Zou, Zhi-Ming Zhang*,“Robust quantum gates between trapped ions using shaped pulses”, Phys.Lett.A, 2015, 379: 3045-3049.

161. Hui Yan*, Kaiyu Liao, Zhitao Deng, Junyu He, Zheng-Yuan Xue, Zhi-Ming Zhang, and Shi-Liang Zhu, “Experimental observation of simultaneous wave and particle behavior in a narrowband single-photon wave packet”, Phys. Rev.A, 2015, 91: 042132.

162. Qin Wu, Yin Xiao, and Zhi-Ming Zhang*,“Stationary entanglement between two nanomechanical oscillators induced by Coulomb interaction”,Chin. Phys.B, 2016,25(01):014203。

163. Xiao-Yu Hu, Chao-Ping Wei, Ya-Fei Yu*, and Zhi-Ming Zhang*,“Enhanced phase sensitivity of an SU(1,1) interferometer with displaced squeezed vacuum light”,2016,Front. Phys. 11(3), 114203.

164. Chao-Ping Wei, Xiao-Yu Hu, Ya-Fei Yu, and Zhi-Ming Zhang*, “Phase sensitivity of two nonlinear  interferometers with inputting entangled coherent states”, Chin. Phys.B, 2016,25(4):040601. 

165.  Yadong Wu,  Jian Zhou,  Xinbao Gong, Ying Guo,  Zhi-Ming Zhang, and Guangqiang He, “Continuous-variable measurement-device-independent multipartite quantum communication”,Phys. Rev.A, 2016, 93(2): 022325.

166. Qiu-Hua Cai, Yin Xiao, Ya-Fei Yu, and Zhi-Ming Zhang*,“Mechanical squeezing and photonic anti-bunching in a coupled two-cavity optomechanical system”,Optics Express, 2016, 24(18):20036。

167. Jindong Wang,  Xiaojuan Qin,  Yinzhu Jiang,  Xiaojing Wang,  Liwei Chen,  Feng Zhao,  Zhengjun Wei, and Zhiming Zhang,“Experimental demonstration of polarization encoding quantum key distribution system based on intrinsically stable polarization-modulated units“,Optics Express, 2016, 24(8): 8302。

168. Zitong Xiong, Jian Ruan, Rongyu Li, Zhiming Zhang, and Guangqiang, “Soliton formation with controllable frequency line spacing using dual pumps in a microresonator”, Chin. Opt. Lett., 2016, 14(12): 121903.

169. Dasen Zhang, and Zhi-Ming Zhang*, “The X-like shaped spatiotemporal structure of the biphoton entangled state in a cold two-level atomic ensemble”, Sci.Rept., 2017,07:42373.

170. Chao-Ping Wei, and Zhi-Ming Zhang*, “Improving the phase sensitivity of a Mach-Zehnder interferometer via a nonlinear phase-shifter”, J.Mod. Opt , 2017, 64(7): 743-749.  DOI: 10.1080/09500340.2016.1260777.

主要获奖情况:

1. 1992年被授予"陕西省第二届优秀青年科技工作者"称号。

2. 1997年获陕西省科技进步二等奖 (第一完成者)“量子光场与原子多光子相互作用中场的压缩和原子的动力学性质”。              

3. 1998年获中国科学院自然科学三等奖(第四完成者)“非经典光场和原子的双光子相互作用” 

4. 1999年被授予上海交通大学“东浩杰出青年教师”称号。

5. 2000年获中国科学院院长奖学金优秀奖(第一完成者)“超冷原子注入的双光子微脉塞的量子理论” 。