个人简历
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.**, 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.**, 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.**, 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.**, 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.**,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.009,2013.1-2015.12)。
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. **,　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. **,　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 modeof 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 emissionprobability ", 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 micromasercavity”, Chin.Phys.Lett.1999,16(8):568-570.
32.Z.M.Zhang et al.,“Photon Statistics of the micromaser with ultra-cold -type three-levelatoms”,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 micromasercavities",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 ina 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”; inFrontiers 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 atomsII: 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 withΛ-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 andZ.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 populationtrapping 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 atomsseparated 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,andM.S.Zubairy,“Generating entangled states of continuous variablesvia 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 polarizedytterbium fiber laser and evidence on the modeprofile 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-dopedfiber laser with cascaded asymmetric exposurelong-period fiber gratings”, Opt Express, 2007, 15(11): 3685-3691.
74.Zhi-Ming Zhang*，Jian Yang，and Ya-Fei Yu，“Generating entanglement of photon-numberstates with coherent lightvia 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 acavity”, 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 andZhi-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 geometricphases 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 decoherencecould 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 withoutthe 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 secretsharing based on the Smolin boundentangled 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 quantuminformation processing with atomic ensembles andflying 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-DanLv, HongLu, Ya-FeiYu, Xun-LiFeng，Zhi-MingZhang *，“Universal Quantum Cloning Machine in Circuit QuantumElectrodynamics”， 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 Liaoand Song-Hao Liu,“Efficient quantum key distribution viasingle-photon two-qubit states”，J.Phys.B: At.Mol.Opt.Phys.，2010, 43(9): 095504.
99.FengMei, Ya-FeiYu, Xun-LiFeng, Shi-LiangZhu,Zhi-MingZhang*，“Optical quantum computation with cavities in the intermediatecoupling region”，Euro.Phys.Lett., 2010,91: 10001.
100.Jian-Qi Zhang, Lin-Lin Xu, Zhi-MingZhang*，“Creating W-type entangled states in quantum dot systems”，Phys.Lett.A,2010, 374: 3818-3822.
101.Li-Fang Zhao, Bo-Hui Lai, FengMei, Ya-FeiYu, Xun-LiFeng, Zhi-MingZhang*，“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-MingZhang*，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 trappedelectrons 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 Z2topological 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*, ShuaiWang, and Zhi-Ming Zhang*, “Photon number distribution of two-mode squeezedthermal 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 andphoton-numberdistributions 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-LiFeng*，and Zhi-Ming Zhang，“Improvement on controlled-controlled-NOT operation-basedentanglementpuri?cation protocol”，Chin.Opt.Lett., 2012, 10(4): 042701.
123.YanLong, FengXun-Li*, ZhangZhi-Ming, LiuSong-Hao,“An Extra Phase for Two-Mode Coherent States Displaced in NoncommutativePhase 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 normalizingphoton-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 itsinseparability”, 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 tworadiation 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 fastlight with a coupled system consisting ofa nanomechanical resonator and aCooper-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 incoupled 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-modecoherent superposition of photon subtraction and addition”，Optik, 2014, 125: 61-63.
142.Yan Xiang，Yu Ya-Fei andZhang 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 Zhangand 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 Pairswith 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 systemfor the electro-optic modulatorused in a quantum key distributionsystem”，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, andZhi-Ming Zhang*，“Tunable multi-channel inverseoptomechanically induced transparencyand 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 withone 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 InitiallyCorrelated 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）：**.
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 oscillatorsinduced 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 withdisplaced 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 nonlinearinterferometers withinputting 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-HuaCai, YinXiao, Ya-FeiYu, andZhi-MingZhang*，“Mechanical squeezing and photonicanti-bunching in a coupled two-cavityoptomechanical system”，Optics Express, 2016, 24(18):20036。
167.Jindong Wang,Xiaojuan Qin,Yinzhu Jiang,Xiaojing Wang,Liwei Chen,FengZhao,Zhengjun Wei, and Zhiming Zhang，“Experimental demonstration of polarizationencoding quantum key distribution system basedon intrinsically stable polarization-modulatedunits“，Optics Express, 2016, 24(8): 8302。
168.Zitong Xiong,Jian Ruan,Rongyu Li,Zhiming Zhang, and Guangqiang, “Soliton formation with controllable frequency line spacingusing 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 nonlinearphase-shifter”, J.Mod. Opt , 2017, 64(7): 743-749. DOI:10.1080/**.2016.**.
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****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” 。