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1. Z. S. Wang, et al., Study on the covariance matrix of the evaluated data, INDC 024, 5 (1991).
2. Z. S. Wang, et al., Systematics of (n, 2n) and (n, 3n) reaction cross section, INDC (JPN)-148/L, 032, 436 (1991).
3. Z. S. Wang, et al., Evaluation of the 55Mn (n, 2n) 54Mn reaction cross section, INDC (CPR)-024, 24 (1991).
4. Z. S. Wang, et al., Evaluation of the 55Fe (n, a) 51Cr reaction cross section, INDC (CPR)-024, 29 (1991).
5. Z. S. Wang, et al., Evaluation of the 55Co (n, a) 58, 58mCo reaction cross section, INDC (CPR)-024, 39 (1991).
6. Z. S. Wang, et al., Evaluation of the 55Co (n, a) 56Mn reaction, INDC (CPR)-024, 49 (1991).
7. Z. S. Wang, et al., Evaluation of the 115In (n, 2n) 114mIn reaction cross section, INDC (CPR)-024, 49 (1991).
8. Z. S. Wang, et al., Evaluation of neutron nuclear data for 240Pu, China communication of nuclear data progress, 84 (1992).
9. Z. S. Wang, et al., The evaluation of 2H (n, 2n)1H reaction cross section, China communication of nuclear data progress, 84 (1992).
10. Z. S. Wang, et al., Research on the covariance matrix of the evaluated data, China journal of computational physics, 364 (1993).
11. Z. S. Wang, et al., Evaluation of 238Pu and 242Pu fission cross section, China communication of nuclear data progress, 85 (1993).
12. Z. S. Wang, et al., Vacuum corrections of nuclear matter in a weak momentum dependence of self-energy, China Journal of nuclear physics, 16, 95 (1994).
13. Z. S. Wang, et al., Excitation of the Delta-Baryon with Density Dependence in Quasielastic Electron Scattering, Journal of Qing Dao University, 10, 15 (1997).
14. Z. S. Wang*, S. Krewald, and J. Speth, A Meson-Theoretical Explanation of the (980) Production Puzzle in the Reaction p-p ® p0p0n ( I ), Jadernaja Fizika, Physics of Atomic Nuclei, 64, 1 (2001).
15. Z. S. Wang*, S. Krewald, and J. Speth, A Meson-Theoretical Explanation of the (980) Production Puzzle in the Reaction p-p ® p0p0n ( III ), Physics of Atomic Nuclei, 64, 691 (2001).
16. Z. S. Wang*, et al., Renormalization for optical model and unified model of nuclear reactions, Phys. Rev. C 48, 2905 (1993).
17. Z. S. Wang*, et al., Running coupling constants in Walecka model and renormalization-group equations, Phys. Rev. C 55, 3159 (1997).
18. Z. S. Wang*, et al., Quark condensates in nuclear matter with vacuum effects, Z. Phys. A 358, 451 (1997).
19. Z. S. Wang*, Families in Spectroscopy of Exotic Mesons, Phys. Rev. D 62, 017503 (2000).
20. Z. S. Wang*, S. Krewald, and J. Speth, A Meson-Theoretical Explanation of the (980) Production Puzzle in the Reaction p-p ® p0p0n, Nucl. Phys. A 684, 429 (2000).
21. Z. S. Wang*, et al., Dynamical symmetry and geometric phase, Phys. Scr. 75, 494 (2007).
22. Z. S. Wang*, et al., Geometricphase in open two-level system, Europhys. Lett. 74, 958 (2006).
23. Z. S. Wang*, et al., Effects of a squeezed-vacuum reservoir on geometricphase, Phys. Rev. A 75, 024102 (2007).
24. Z. S. Wang*, L. C. Kwek, C. H. Lai and C. H. Oh, Entanglement and Geometric Phase in Transverse and Longitudinal particles, The European Physical Journal D 33, 285 (2005).
25. Z. S. Wang*, L. C. Kwek, C. H. Lai and C. H. Oh, Quantum tunneling time, Phys. Rev. A 69, 052108 (2004).
26. Z. S. Wang*, L. C. Kwek, C. H. Lai and C. H. Oh, Quantum tunneling time v.s. geometric phase, Phys. Lett. A 359, 608 (2006).
27. Z. S. Wang*, Chunfeng Wu, Xun-Li Feng, L. C. Kwek, C. H. Lai, C. H. Oh, and V. Vedral, Geometric phase induced by nonlocality. Phys. Lett. A 372, 775 (2008).
28. Xun-Li Feng, Z. S. Wang, Chunfeng Wu, L. C. Kwek, C. H. Lai and C. H. Oh, A scheme for unconventional geometric quantum computation in cavity QED. Phys. Rev. A 75, 052312 (2007).
29. Z. S. Wang*, Chunfeng Wu, Xun-Li Feng, L. C. Kwek, C. H. Lai, C. H. Oh, and V. Vedral, Nonadiabatic geometric quantum computation. Phys. Rev. A 76, 044303 (2007).
30. Chunfeng Wu, Z. S. Wang, Xun-Li Feng, L. C. Kwek, C. H. Lai, and C. H. Oh. Unconventional geometric quantum computation in a two-mode cavity. Phys. Rev. A 76, 024302 (2007).
31. Z. S. Wang. Geometric quantum computation and dynamical invariant operators. Phys. Rev. A 79, 024304 (2009).
32. Z. S. Wang*, G. Q. Liu and Y. H. Ji. Noncyclic geometric quantum computation in a nuclear-magnetic-resonance system. Phys. Rev. A 79, 054301(2009).
33. G. Q. Liu, Z. S. Wang,Y. B. Liao, H. H. Hu, and Y. Chen. High-quality photonic crystal heterostructures fabricated by a modified self-assembly method, APPLIED OPTICS, 48 2480 (2009).
34. Z. S. Wang and R. S. Wu. Interpretation for probability wave and quantum measured problem, Int. J. Theor. Phys. 48, 1859 (2009).
35. Z. S. Wang. Geometric Phase in fluctuating magnetic field. Int. J. Theor. Phys. 48, 2353 (2009).
36. Di-You Jiang, R. Wu, S. S. Li, and Z. S. Wang*. Controlled dense coding with symmetric state. Int. J. Theor. Phys. 48, 2297 (2009).
37. Z. Q. Chen, J. Q. Wang, X. L. Li, Y. H. Ji, B. R. Zhang, Y. Y. Jiang, Z. S. Wang*. Avoiding loss of fidelity for universal entangling geometric quantum gate. Int. J. Theor. Phys 48, 2904 (2009).
38. Z.Q. Chen, L.P. Guo , Y. Chen , X.L. Li , G.Q. Liu , Y.H. Ji , Z.S. Wang*. Controlling Decoherence from Fluctuating Magnetic Field. Int. J. Theor. Phys 49, 18 (2010).
39. JI Ying-Hua, CAI Shi-Hua, LE Jian-Xin, WANG Zi-Sheng, Operating geometric quantum gate by external controllable parameters, Chinese Physics B 19, 010311(2010).
40. Z. S. Wang*, Jianqiu Wang, Yanyan Jiang, Z. Q. Chen, and Y. H. Ji, Avoiding decoherence for open system and renormalizing for Hamiltonian, Adv. Studies Theor. Phys 4,241 (2010).
41.Dongyu Liu, Z. Q. Chen, and Z. S. Wang*, Geometric Population Inversion in Rabi Oscillation. Int. J. Theor. Phys 49, 497 (2010).
42. Y. H. Ji , L. Xu , B. Xu , and Z. S. Wang, Implementation of noadiabatic geometric quantum gate in quantum circuit, Modern Physics Letters B 24, 727(2010).
43. Ji Ying-Hua, Lai Hui-Fang, Cai Shi-Hua, and Wang Zisheng, Controlled decoherence of thre-levelrf-SQUID qubit with asymmetric potential. Chin. Phys. B 19, 030310 (2010).
44.Huang-Yun Rao, Li-yun Hu, G.Q. Liu, and Z.S. Wang*, Overcoming Decoherent Effects from Squeezed Vacuum Reservoir. Int. J. Theor. Phys 49, 1396 (2010).
45. Lin Xu, Gang Huang, Y.H. Ji, and Z.S. Wang*, Geometric Control for Unified Entangling Quantum Gate with High-Fidelity in Electric Circuit. Int. J. Theor. Phys 49, 2002 (2010).
46. Y.H. Ji, J. J. Hu, Z.S. Wang. Modulation of Entanglement for Coupled Superconducting Qubits Under Non-Markovian Environment. Int. J. Theor. Phys. 49, 1911 (2010).
47. Y.H. Ji, L. Xu, Z.S. Wang. Controlled Decoherence of Three-level Floating Qubit. Int. J. Theor. Phys. 49, 2641 (2010).
48. Wenjuan Yang, Weijia Zhang, Hongshan Tang, Z.S. Wang*.Entanglement and Geometric Phase for Two-Particle System in Nuclear Magnetic Resonance. Int. J. Theor. Phys 50, 260 (2010).
49. G. Q. Liu, Z. S. Wang, et.al. Influence of growth parameters on the fabrication of high-quality colloidal crystals via a controlled evaporation self-assembly method. Thin Solid Films 518, 5083 (2010).
50. Hualan Xu, Y.H. Ji, Z.S. Wang*. Geometric Phase and Sidebands. Int. J. Theor. Phys. 50, 497 (2011).
51. Yanyan Jiang, Y. H. Ji, Hualan Xu, Li-yun Hu, Z. S. Wang,* Z. Q. Chen, and L. P. Guo. Geometric phase of mixed states for three-level open systems. Phys. Rev. A 82, 062108 (2010).
52. G. Q. Liu, Z. S. Wang (第2作者), Influence of growth parameters on the fabrication of high-quality colloidal crystals via a controlled evaporation self-assembly method. Thin Solid Films 518, 5083 (2010).
53. Yanxia Yu, Z.Q. Chen, Li-yun Hu, Hongshan Tang, Z.S. Wang*. Geometric Phase for Optical Free Induction Decay. Int. J. Theor. Phys. 50, 148 (2011).
54. Li-yun Hu,Photon-subtracted squeezed thermal state: Nonclassicality and decoherence, Phys. Rev. A 82, 043842 (2010)., Xue-xiang Xu, Zi-sheng Wang, and Xue-fen Xu.
55. Li-Yun Hu, Zheng-Lu Duan, Xue-Xiang Xu and Zi-Sheng Wang, Wigner function evolution in a self-Kerr medium derived by entangled state representation, J. Phys. A: Math. Theor. 44, 195304(2011).
56. Hualan Xu, Dan Fu, Z.S. Wang, Hui Pan, Journal of Magnetic Resonance 223 (2012) 25–30
57. Hua-lan Xu, Dan Fu, Z. S. Wang*, Hui Pan, Dynamic evolution for liquid-state nuclear spins
and Berry phase of mixed state in a magnetic resonance , J. Magn. Reson. 223,
25 (2012).
58. Yi-you Nie, Yuan-hua Li, Zi-sheng Wang, Semi-quantum information splitting using
GHZ-type states, Quantum Information Processing 12, 437 (2013).
59. Hua-lan Xu, Lin Xu, Li-yun Hu, Z. S. Wang*, Geometric Phase of Mixed States in the
Resonance Fluorescence Spectrum, Int. J. Theor. Phys 51, 1715 (2012).
60. Qi Wang, Li-yun Hu, Z. S. Wang*, Different representations of R-function and
parameterized quantization scheme, OPTIK 123, 2002 (2012).
61. Li-yun Hu, Zheng-lu Duan, Xue-xiang Xu, Z. S. Wang, Wigner function evolution in a
self-Kerr medium derived by entangled state representation, J. Phys. A 44, 195304 (2011).
62. Gui-qiang Liu, H.H. Hu, Y.B. Liao, Z. S. Wang, et.al., Synthesis and photonic band gap
characterization of high quality photonic crystal heterostructures, OPTIK 122, 9 (2012).
63.Yanxia Yu , Guolan Fu,L.P. Guo ,Hui Pan and Z.S. Wang,Quantum correlations of coupled superconducting two-qubit system in various cavity environments, Physica C 495 (2013) 88–108.