祝世宁-南京大学

南大风华

首页 / 南大风华 / 南雍学人 / 星光璀璨院士墙 / 正文

南大风华

祝世宁

基本简介

功能材料学家。南京大学教授。1949年12月生于江苏省南京市，籍贯江苏镇江。1981年毕业于淮阴师范学院，1988年在南京大学获硕士学位，1996年在南京大学获博士学位。2007年当选中国科学院院士。曾任南京大学物理系主任，物理学院院长; 现任江苏省物理学会理事长、江苏省科协副主席、教育部科技委材料学部主任、科技部重大研究计划（973）顾问专家等职。在南京大学物理系获硕士、博士学位;长期从事微结构功能材料和物理、非线性光学、激光物理与量子光学方面的研究，在微结构材料的设计、制备、性能表征、新效应研究和器件研制方面工作较为系统，拥有国际、国家发明专利20余项,在Science（科学）、Nature（自然）、PRL（物理评论快报）等国际高水平学术刊物上发表论文300 余篇。与合作者一起完成的研究成果三次获中国基础研究年度十大新闻，二次被评为中国高校年度科技十大进展；作为主要完成人之一(第三)所完成的“介电体超晶格的设计、制备、性能与应用”项目获2006年国家自然科学一等奖。长期从事微结构功能材料研究。在铁电畴工程方面，发现了铌酸锂型铁电体电畴反转动力学规律，发展了图案极化技术，研制出不同功能的介电体超晶格材料。在微结构晶体功能研究方面，发展了非共线准相位匹配技术，并应用于光的非线性弹性散射、增强拉曼散射、非线性切仑科夫辐射和纠缠光研究等。在全固态激光器研究方面，将超晶格材料与全固态激光技术结合，研制了光学超晶格多波长激光器和可调谐激光器等。

研究领域： 凝聚态物理和非线性光学光学超晶格 (QPM)及其非线性光学效应；微结构电磁波材料，光子晶体、非线性光子晶体；光子纠缠和量子信息；铁电物理和材料。

发表论文

1. Y.Du, S.N.Zhu, Y.Y.Zhu, P.Xu, C.Zhang, Y.B.Chen, Z.W.Liu, and N.B.Ming, “Parametric and cascaded parametric interactions in a quasiperiodic optical superlattice”, Appl.Phys.Lett. 81, 1573(2002).

2. H.Liu, S.N.Zhu, Y.Y.Zhu, N.B.Ming, X.C.Lin, W.J.Ling, A.Y.Yao, andZ.Y.Xu, “Multiple-wavelength second-harmonic generation in aperiodic optical superlattices”, Appl.Phys.Lett. 81, 3326(2002).

3. Z.W.Liu, Y.Du, J.Liao, S.N.Zhu, Y.Y.Zhu, Y.Q. Qin, H.T.Wang, J.L.He, C.Zhang, and N.B.Ming, “Engineering of a dual-periodic optical superlattice used in a coupled optical parametric interaction”, J.Opt.Soc.Am.B 19, 1676(2002).

4. J.L.He, G.Z.Luo, H.T.Wang, S.N.Zhu, Y.Y.Zhu, Y.B.Chen, N.B.Ming, “Generation of 840 mW of red light by frequency doubling a diode-pumped 1342 nm Nd:YVO4 laser with periodically-poled LiTaO3”, Appl.Phys.B 74, 537(2002)

5. Y.B.Chen, X.B.Cai, Y.Y.Zhu, S.N.Zhu, N.B.Ming, “Second harmonic generation in two-dimensional metal photonic band gap materials”, J.Appl.Phys.92, 2969(2002).

6. Y.Y.Zhu, Q.B.Cai, Y.Q.Qin, S.N.Zhu, and N.B.Ming, “Microstructureral design for phase-matching engineering”, J.Opt.A: Pure Appl. Opt. 4, 1(2002).

7. G.Z.Luo, S.N.Zhu, J.L.He, Y.Y.Zhu, H.T.Wang, Z.W.Liu, C. Zhang and N.B.Ming, Simultaneously efficient blue and red light generations in a periodically poled LiTaO3”, Appl.Phys.Lett. 78, 3006(2001).

8. Z.W.Liu, S.N.Zhu, Y.Y.Zhu, H.T.Wang, G.Z.Luo, H.Liu, N.B.Ming, “Red and blue light generation in a LiTaO3 crystal with a Double Grating Domain Structure”, Chin. Phys. Lett. 18, 539(2001).

9. H.Liu, X.Y.Liang, S.N.Zhu, Y.Y.Zhu, W.Hou, Z.Y.Xu, N.B.Ming, “Generation of efficient quasi-cw green light by single-pass frequency doubling with a periodic LiTaO3 optical superlattice, Mater.Letts. 46, 281(2000).

10. H.Liu, S.N.Zhu, X.Y.Liang, Y.Y.Zhu, W.Hou, Z.Y.Xu, N.B.Ming, Efficient Contineuous wave green light generation in a periodically poled LiTaO3 crystal by single-pass frequency doubling, Ferroelectrics. 253, 811(2001).

11. Y.B.Chen, Y.Du, S.N.Zhu, Y.Q.Lu, Y.Y.Zhu, N.B.Ming, and Y.H.Xu, “Domain reversion in Er:LN by external field poling”, Ferroelectrics. 252, 509(2001`).

12. Z.W.Liu, Y.Q.Qin, Y.Y.Zhu, H.T.Wang, C.Zhang, S.N.Zhu, and N.B.Ming, “Ultraviolet generation in a dual-periodic domain inverted LiTaO3 crystal by a complex quasi-phase-matched frequency tripling a 1.064 mm laser”, Ferroelectrics.235, 263(2001).

13. S.N.Zhu, Y.Y.Zhu, and N.B.Ming, “Engineered Ferroelectric Superlattice: Materials and Applications”, Proceedings of the 2000 12th IEEE International Symposium on Applications of Ferroelectrics Vol l.1, 313(2001).

14. Y.Y.Zhu, C.Zhang, S.N.Zhu, and N.B.Ming, “Dielectric Superlattice: Effect of coupling coefficients on Quasi-Phase-Matched harmonic Generation”, Proceedings of the 2000 12th IEEE International Symposium on Applications of Ferroelectrics Vol.1, 211(2001).

15. C.Zhang Y.Y.Zhu, S.N.Zhu, and N.B.Ming, “Quasi-Phase-Matching and Reciprocal Space”, Ferroelectrics 253, 787(2001).

16. H.Wei, C.Zhang, Y.Y.Zhu, S.N.Zhu, and N.B.Ming, “Three-Component Quasiperiodic Superlattice and its Fourier Spectrum”, Ferroelectrics 253, 803(2001).

17. Z.W.Liu, S.N.Zhu, Y.Y.Zhu, H.Liu, Y.Q.Lu, H.T.Wang, N.B.Ming, X.Y.Liang, Z.Y.Xu, “A scheme to realize three-fundamental-colors laser based on quasi-phase-matching”, Solid State Communication 119, 363(2001).

18. C.Zhang, Y.Y.Zhu, S.N.Zhu and N.B.Ming, “Coupled quasi-phase-matched high-order harmonic generation”, J.OPT.A: Pure Optics 3, 317(2001).

19. H.Liu, Y.Y.Zhu, S.N.Zhu, C.Zhang, and N.B.Ming, “Aperiodic optical superlattices engineered for optical frequency conversion”, Appl.Phys.Lett. 79, 728(2001).

20. Y.B.Chen, C.Zhang, Y.Y.Zhu, S.N.Zhu, H.T.Wang, and N.B.Ming, “Optical harmonic generation in a quasi-phase-matched three-component Fibonacci superlattice LiTaO3”, Appl. Phys. Lett. 78, 577(2001).

21. J.M.Liu, H.L.W.Chan, C.L.Choy, Y.Y.Zhu, S.N.Zhu, Z.G.Liu, and N.B.Ming, “Scaling on hysteresis dispersion in ferroelectric systems”, Appl.Phys.Lett. 79, 236(2001).

22. J.M.Liu, B.Pan, H.L.W.Chan, S.N.Zhu, Y.Y.Zhu, Z.G.Liu, “Pieroelectric coefficient measurement of piezoelectric thin films: an overview”, Mater.Chem.Phys. 75, 12(2001).

23. C.Zhang, H.Wei, Y.Y.Zhu, H.T.Wang, S.N.Zhu, and N.B.Ming, “Third-harmonic generation in a general two-component quasi-periodic optical superlattice”, Optics Letters 26, 899(2001).

24. Z.W.Liu, S.N.Zhu,Y.Y.Zhu, Y.Q.Qin, J.L.He, C.Zhang, H.T.Wang, N.B.Ming, X.Y.Liang, Z.Y.Xu, “Quasi-Cw Ultraviolet Generation in Dual-periodic LiTaO3 Superlattice by Frequency Tripling”, Jan.J.Appl.Phys. 40, (2001).

25. Z.W.Liu, S.N.Zhu, Y.Q.Qin, Y.Y.Zhu, and N.B.Ming, “Frequency tripling a 1.064 mm laser by a dual-periodically poled LiTaO3 crystal”, Technical Digest of CLEO/Pacific Rim 2001, I-134(2001).

26. C.Zhang, H.Wei, Y.Y.Zhu, H.T.Wang, S.N.Zhu, and N.B.Ming, “Third-harmonic generation in a general two-component quasi-periodic optical superlattice”, Optics Letters 26, 899(2001).

27. Z.W.Liu, S.N.Zhu,Y.Y.Zhu, Y.Q.Qin, J.L.He, C.Zhang, H.T.Wang, N.B.Ming, X.Y.Liang, Z.Y.Xu, “Quasi-Cw Ultraviolet Generation in Dual-periodic LiTaO3 Superlattice by Frequency Tripling”, Jan.J.Appl.Phys. 40, (2001).

28. C.Zhang, Y.Y.Zhu, S.X.Yang, Y.Q.Qin, S.N.Zhu, Y.B.Chen, H.Liu, and N.B.Ming, Crucial effects of coupling coefficients on quasi-phase-matched harmonic genereation in an optical superlattice, Optics Letters 25, 436(2000).

29. H.Liu, X.Y.Liang, S.N.Zhu, W.Hou, Z.Y.Xu, N.B.Ming, “Generation of efficient quasi-cw green light by single-pass frequency doubling with a periodic LiTaO3 optical superlattice”, Materials Letters 46, 281(2000).

30. S.N.Zhu, Y.Y.Zhu, Y.Q.Lu, and B.N.Ming, Invited review paper: “Ferroelectric superlattice: Materials and Applications”, Phase Transition 72, 239(2000).

31. S. N. Zhu and W. W. Cao, “Imaging of 180 Ferroelectric Domain in LiTaO3 by means of scanning electrion microscopy”, phys.stat.sol.(a)173,495(1999).

32. Y.Q.Qin, Y.Y.Zhu, S.N.Zhu and N.B.Ming, “Nonlinear optical characterization of a generalized Fibonacci optical superlattices”, Appl.Phys.Lett.75, 448(1999).

33. Wenwu and S.N.Zhu, “Observation of ferroelectric domains in LiTaO3”, Ferroelectric 226, 27(1999).

34. Y.Q.Lu, Y.Y.Zhu, Y.F.Chen, S.N.Zhu, N.B.Ming and Y.J.Feng, “Optical properties of an ionic-type phonic crystal”, Science 284, 1822(1999).

35. Yi-qiang Qin, Yong-yuan Zhu, Shi-ning Zhu and Nai-ben Ming, “Optical bistability in periodically poled LiNbO3 induced by cascaded second-order nonlinearity and electro-optic effect”, J.Phys: Condensed Matter 10, 8939-8945(1998).

36. W. W. Cao, S. N. Zhu and B. Jiang, “Analysis of Shear Modes in a Piezoelectric Resonator”, J. Appl.Phys. 83, 4415-4420 (1998).

37. S. N. Zhu, B. Jiang and W. W. Cao, “ Characterization of Piezoelectric Materials Using Ultrasonic and Resonant Techniques”, Proceeding of SPIE Imaging 98, vol. 3341, 154-162 (1998).

38. S. N. Zhu and W. W. Cao, “ Imaging of Ferroelectric Domains in LiTaO3 by Environmental Scanning Electron Microscopy”, Ferroelectrics 222, 257 (1998).

39. Y.Q.Qin, Y.Y.Zhu, S.N.Zhu, and N.B.Ming, “Quasi-Phase-Matched Harmonic Generation through Coupled Parametric Processes in a Quasiperiodic Optical Superlattice”, J.Appl.Phys.84, 12(1998).

40. Y.Q.Qin, Y.Y.Zhu, S.N.Zhu, N.B.Ming, “The effective nonlinear coefficients and quasi-phase-matched harmonic generation”, Proceeding of SPIE vol. 3556 142(1998).

41. Y.Q.Qin, Y.Y.Zhu, S.N.Zhu and N.B.Ming, “The cascade nonlinearty for optical bistable effect in periodically poled LiTaO3”, submitted to ferroelectrics.

42. S.B.Xiong, Z.M.Ye, X.Y.Chen, X.L.Guo, S.N.Zhu et al., “Feroelectric Sr(x)Ba(1-x)Nb(2)O(6) optical waveguiding thin films on SiO(2)-coated Si(100) substrate” Appl. Phys. A67, 313(1998).

43. X.G.Guo, W.S.Hu, Z.G.Liu, S.N.Zhu et al., “ In-suit poling of lithium nibate films on silicon wafer by applying a low electric field during pulsed laser depositeion.”, Materials Science and Engineering B53, 278(1998).

44. S.N.Zhu, Y.Y.Zhu and N.B.Ming, “Quasi-Phase-Matched Third Harmonic Generation in a Quasi- Periodic Optical Superlattice”, Science 278, 843-846 (1997).

45. S.N.Zhu, Y.Y.Zhu, Y. Q. Qin, H. F. Wang, C. Z. Ge, and N.B.Ming, “Experiment Realization of Second Harmonic Generation in a Fibonacci Optical Superlattice of LiTaO3”, Phys.Rev.Lett. 78, 2752-2755 (1997).

46. S.N.Zhu and W.W.Cao, “Direct Observation of Ferroelectric Domains in LiTaO3 Using Environmental Scanning Electron Microscopy”, Phys.Rev.Lett. 79, 2558-2561(1997).

47. S. N. Zhu, Y.Y. Zhu, Z.Y.Zhang, H.F.Wang and N.B.Ming, “Ferroelectric domain Inversin in LiTaO3 Single Crystal by Applying Electric Field”, Ferroelectrics 197, 51-54(1997).

48. Y.Y.Zhu, J.F.Hong, S.N.Zhu, H.F.Wang, K.Q.Zhang, N.B.Ming, “Fabrication of periodically domain-inverted LiTaO3”, Ferroelectrics 197, 59(1997).

49. H.Shu, Y.Y.Zhu, S.N.Zhu, Z.Y.Zhang, H.F.Wang, C.Z.Ge and N.B.Ming, “ Study on domain inversion in LiNbO3 by Ti-indiffusion”, Ferroelectrics 197, 55(1997).

50. Y.Y.Zhu, Y.F.Chen, S.N.Zhu, Y.Q.Qin and N.B.Ming, “Acoustic superlattices and ultrasonic waves excited by crossed-field scheme”, Materials Letters 28, 503(1997).

51. Y.Q.Qin, Y.Y.Zhu, S.N.Zhu H.Shu and N.B.Ming, “Electron probe microanalysis of periodic domain inversion in LiNbO3 by Ti diffusion”, Materials Letters 30, 231(1997).

52. H.F.Wang, Y.Y.Zhu, S.N.Zhu and N.B.Ming, “Investigation of ferroelectric coercive field in LiNbO3”, Appl.Phys.A65, 437(1997).

53. Y.F.Chen, S.N.Zhu, Y.Y.Zhu, N.B.Ming, B.B.Jin and R.X.Wu, “High-frequency resonance in acoustic superlattice of periodically poled LiTaO3”, Appl.Phys.Lett 70, 592(1997).

54. G.P.Luo, M.Wang, S.N.Zhu el al., “LN grating coupler fabricated by one excimer laser pulse through a diffractive optical element”, CLEO/Pacific Rim 97, Japan. Technical Digest 246(1997)

55. S.N.Zhu, Y.Y.Zhu, W.Z.Shen. H.F.Wang, Z.Y.Zhang, N.B.Ming, Y.Chang and X.C.Shen, “Field- induced periodic poled bulk LiNbO3 using Al electrodes”, J.Phys.D:Appl.Phys.29, 76(1996). H.F.Wang,

56. Y.Y.Zhu, S.N.Zhu and N.B.Ming, “Study on domain inversion in proton-exchanged and heat-treated LiTaO3”, Journal of Physics: Condensed Matter 8, 5637(1996).

57. Y.Y.Zhu, Z.Y.Zhang, M.Gu, S.N.Zhu, Y.Li, Y.Q.Qing and N.B.Ming, “Curie temperature and domain inversion in proton exchanged LiTaO3”, Materials Letters 27, 333(1996).

58. Y.Y.Zhu, S.N.Zhu, Y.Q.Qin, and N.B.Ming, “Further studies on ultrasonic excitation in an acoustic Superlattice”, J.Appl.Phys.79, 2221(1996). 59. Y.Y.Zhu, S.N.Zhu, N.B.Ming, “Crossed Field excitation of an acoustic superlattice”, J.Phys.D: Appl.Phys.29, 185(1996).

60. Z.Y.Zhang,Y.Y.Zhu, S.N.Zhu and N.B.Ming, “Domain inversion by Li2O out-diffusion and proton exchange followed by heat treatment in LiTaO3 and LiNbO3”, Phys.Stat.Sol.(a). 153, 275(1996).

61. Y.Y.Zhu, Y.F.Chen, S.N.Zhu Y.Q.Qin and N.B.Ming, “Acoutic superlattices and ultrasonic waves excited by crossed-field scheme”, Materials Letters 28, 503 (1996).

62. X.L.Guo, Z.G.Liu, J.M.Liu, S.N.Zhu and Y.Y.Zhu, “(012) textured LiNbO3 waveguiding films grown on SiO2 by pulsed laser deposition technique”, Phys.Stat.Sol.(a). 154, 615(1996).

63. X.L.Guo, Z.G.Liu, S.N.Zhu, S.B.Xiong, Y.Y.Zhu, J.M.Liu, “Ba2NaNbO15/MgO optical waveguid structure grown on Si wafer by pulsed laser deposition. Journal of Crystal Growth 167, 378(1996).

64. X.L.Guo, Z.G.Liu, S.N.Zhu, Y.Y.Zhu, S.B.Xiong, C.Y.Lin, “Excimer laser ablation of Ba2NaNb5O15 optical waveguide films on MgO(001) substrates”, Materials Letters 29, 155(1996).

65. J.M.Liu, Z.G.Liu, S.N.Zhu, Y.Y.Zhu, N.B.Ming, “Excimer laser ablating of Ba2NaNb5O15 thin films on KTiOPO4 substrate and it guide wave property”, Applied Surface Science 96-98, 819(1996).

66. Z.Y.Zhang, L.C.Wang, Y.Y.Zhu, S.N.Zhu and N.B.Ming, “ Direct observation of domain-inverted regions in proton-exchanged LiNbO3 using transmission electron microscopy”, Chin.Phys.Lett. 13, 362(1996).

67. G.P.Luo, S.N.Zhu, Y.L.Lu, Y.Y.Zhu,S.B.Xiong,Z.G.Liu,N.B.Ming, H.M.Wu and Z.H.Lu, “Fabrication of LiTaO3 periodic surface structures by a single excimer laser pulse through a phase mask grating”, SPIE. Vol. 2888, 214 (1996).

68. W.S.Hu, Z.G.Liu, S.N.Zhu, and D.Fen Pulsed-lase deposition and optical properties of completely (001) textured optical waveguiding LiNbO3 films upon SiO/Si substrates. Opt.Lett. 21, 946(1996).

69. Guo X L, Liu Z G, Chen X Y, Zhu S N , Xiong S B, “In-situ poling of lithium niobate films on silicon wafer by applying a low electric field during pulsed laser deposition”, Phy. Stat. Soli.(a) , (1996).

70. Xiong S B, Guo X L, Liu Z G, Yu T, Chen X Y, Meng X K, Zhu S N, “Optical waveguiding properties of PLZT(28/0/100) thin films deposited by pulsed laser deposition. Material Letters, (1996).

71. X. L. Guo, W.S.Hu, Z.G.Liu, S.N.Zhu, T.Yu, S.B.Xiong and C.Y.Liu, “Pulsed laser deposition of lithium niobate films on silicon wafer by applying a low electric field during pulsed laser deposition”, J.Crystal.Growth, (1996).

72. X.L.Guo, Z.G.Liu, X.Y.Chen, S.N.Zhu, S.B.Xiong, W.S.Hu and G.Y.Liu, “Pulsed laser deposition of SrxBa1-xNb2O6/MgO bilayered film on Si wafer in waveguide form”, Physics D. 29, 1(1996).

73. X.L.Guo, Z.G.Guo, S.N.Zhu, S.B.Xiong, Y.Y. Zhu and J.M.Liu, “Ba2NaNb5O15/MgO optical waveguide structure grown on Si wafer by pulsed laser deposition”, J.Crystal Growth, (1996).

74. S.N.Zhu, Y.Y.Zhu, H.F.Wang, Z.Y.Zhang, N.B.Ming,W.Z.Shen, Y.Chang, X.C.Shen, “ Second-order quasi-phase-matched blue light generation in a bulk periodically poled LiTaO3”, J.Phys.D: Appl.Phys.28, 2389(1995).

75. S.B.Xiong, Z.G.Liu, X.Y.Chen, X.L.Gao.X.Liu and S.N.Zhu, “Pulsed laser deposition and characterization of optical waveguiding (Pb,La)(Zr,Ti)O3 thin films”, Appl.Phys.Lett. 67, 2729(1995).

76. S.N.Zhu, Y.Y.Zhu, J.M.Liu, Z.Y.Zhang, H.Shu, J.F.Hong, C.Z.Ge, Z.S.Lin, N.B.Ming, “Epitaxial Ba2NaNb5O15 thin film by pulsed laser deposition and its waveguide properties”, Optics Letters 20, 291(1995).

77. S.N.Zhu, Y.Y.Zhu, Z.J.Yang, H.F.Wang, Z.Y.Zhang, J.F.Hong, C.Z.Ge, N.B.Ming, “Second-harmonic generation of blue light in a bulk periodically poled LiTaO3”, Appl.Phys.Lett. 67, 320(1995).

78. S.N.Zhu, Y.Y.Zhu, Z.Y.Zhang, H.Su, H.F.Wang, J.F.Hong, C.Z.Ge, N.B.Ming, “LiTaO3 crystal periodically poled by applying an external pulsed field”, J.Appl.Phys. 77, 5481(1995).

79. S.N.Zhu, Y.Y.Zhu, Z.Y.Zhang, H.Su, J.F. Hong, C.Z.Ge, N.B.Ming, “The mechanism for domain inversion in LiNbO3 by proton exchange and rapid heat treatment”, J.Phys.:Condens.Matter 7, 1437(1995).

80. Y.Y.Zhu, S.N.Zhu, Z.Y.Zhang, H.Su, J.F.Hong, C.Z.Ge, N.B.Ming, “Formation of single-domain layers in multidomain LiNbO3 crystals by proton exchange and rapid heat treatment”, Appl.Phys.Lett.66, 408(1995).

81. S.N.Zhu, Y.Y.Zhu, J.M.Liu, Z.G.Liu,N.B.Ming, “ Non-critical phase-matching in nonlinear Ba2NaNb5O15/KTiOPO4 film waveguides grown by epitaxial methods”, Journal of Phys. D:Appl.Phys. 28, 463(1995).

82. X.L.Guo, Z.G.Liu, J.M.Liu, S.N.Zhu and Y.Y.Zhu, “(012) textured LiNbO3 waveguiding films grown on SiO2 by pulsed laser deposition technique”, Phys.Stat.Soli.(b), (1995).

83. S.N.Zhu, Y.Y.Zhu, Z.J.Yang and N.B.Ming, “Fabration of bulk periodically poled LiNbO3 and LiTaO3 by applying a pulsed-field for application of frequency doubling”, Proceedings of CLEO/Pacific Rim 95, Japan, 280(1995).

84. Z.G.Liu, J.M.Liu, S.N.Zhu, Y.Y.Zhu and Z.G.Liu, “Nonlinear optical films of LiNbO3 grown on SiO2, Al2O3 in waveguide film”, Ferroelectrics, (1995).

85. W.S.Hu, Z.G.Liu, X.L.Guo, C.Lin, S.N.Zhu and D.Feng, “Preparation of c-axis oriented ZnO optical waveguiding films on fused silica by pulsed laser reactive ablation”, Mater.Lett.25, 5(1995).

86. Z.Y.Zhang, Y.Y.Zhu, S.N.Zhu, H.Shu, H.F.Wang, J.F.Hong, C.Z.Ge, N.B.Ming, “Study on the formation mechanism of a complex domain structure in LiNbO3”, J.Appl.Phys.77 4136(1995).

87. H.F.Wang, Y.Y.Zhu, Z.Y.Zhang, S.N.Zhu and N.B.Ming, “Study on the proton profile in proton-exchanged and heat-treated LiNbO3 with domain reversal”, Journal of Physics: Condensed Matter 7, 7583(1995).

88. J.M.Liu, Z.G.Liu, F.Zhang, S.N.Zhu, Z.C.Wu, Y.Y.Zhu, N.B.Ming, “Preparation of optical NaBa2 Nb5O15 waveguide films by pulsed laser deposition”, J.Phys.D:Appl.Phys.28, 216(1995).

89. J.M.Liu, S.N.Zhu, Z.G.Liu, Y.Y.Zhu, Z.C.Wu, N.B.Ming, “Excimer laser ablating preparation of Ba2NaNb5O15 optical waveguiding films on (001) KTiOPO4 substrates”, Solid State Commun. 93, 479(1995)

90. X.L.Guo, J.M.Liu, Z.G.Liu and S.N.Zhu, “Pulsed Laser Deposition of Optical Waveguiding LiNbO3 Films on SiO2 Substracte”, Chin.Phys.Lett.12, 249(1995).

91. S.N.Zhu, Y.Y.Zhu, Y.Z.Zhu et al., “Periodic Domain Inversion in LiTaO3 by Applying an external pulsed field”, J.Nan.Univ.31, 174(1995).

2002年之后

[1] “On-chip steering of entangled photons in nonlinear photonic crystals“ H. Y. Leng, X. Q. Yu, Y. X. Gong, P. Xu, Z. D. Xie, H. Jin, C. Zhang and S. N. Zhu, Nat. Commun | 2:429 | DOI: 10.1038/ncomms1439 |

[2] “Broad band focusing and demultiplexing of in-plane propagating surface plasmons“ L. Li, T. Li, S. M. Wang, S. N. Zhu, X. Zhang, Nano Lett. 11(10), 4357 (2011)

[3] “Plasmonic Airy Beam Generated by In-Plane Diffraction“ L. Li, T. Li, S. M. Wang, C. Zhang, and S. N. Zhu, Phys. Rev. Lett 107, 126804 (2011)

[4] “Strong Light-Induced Negative Optical Pressure Arising from Kinetic Energy of Conduction Electrons in Plasmon-Type Cavities“, H. Liu, J. Ng, S. B. Wang, Z. F. Lin, Z. H. Hang, C. T. Chan, S. N. Zhu, Phys. Rev. Lett. 106, 087401 (2011)

[5] “Cavity Phase Matching via an Optical Parametric Oscillator Consisting of a Dielectric Nonlinear Crystal Sheet“, Z. D. Xie, X. J. Lv, Y. H. Liu, W. Ling, Z. L. Wang, Y. X. Fan, and S. N. Zhu, Phys. Rev. Lett. 106, 083901 (2011)

[6] “Transforming Spatial Entanglement Using a Domain-Engineering Technique“, X. Q. Yu, P. Xu, Z. D. Xie, J. F. Wang, H. Y. Leng, J. S. Zhao, S. N. Zhu, and N. B. Ming, Phys. Rev. Lett. 101, 233601 2008

[7] “Nonlinear ?erenkov radiation in nonlinear photonic crystal waveguides“, Y. Zhang, Z. D. Gao, Z. Qi, S. N. Zhu, and N. B. Ming, Phys. Rev. Lett. 100, 163904 2008 (封面文章)

[8] “Magnetic Plasmon Propagation Along a Chian of Connected Subwavelength Resonators at Infrared Frequencies“, H. Liu, D. A. Genov, D. M. Wu. Y. M. liu, J. M. Steele, C. Sun, S. N. Zhu, and X. Zhang, Phys. Rev. Lett. 97, 243902 2006

[9] “Conical Second Harmonic Generation in a Two-Dimensional χ(2) Photonic Crystal: A Hexagonally Poled LiTaO3 Crystal“,P. Xu, S. H. Ji, S. N. Zhu, X. Q. Yu, J. Sun, H. T. Wang, J. L. He, Y. Y. Zhu, and N. B. Ming, Phys. Rev. Lett. 93, 133904 2004 (封面文章)

获奖情况

1. 香港求是科技基金会奖项, 1998年

2. 全国首届优秀博士论文作者(国务院学位办、教育部，1999年)

3. 1998年度我国基础研究十大成果(一维人工准晶的研究，科技部, 1998年，主要完成人之一)

4.1999年度中国基础研究十大新闻(离子型声子晶体，科技部, 1999年，主要成员之一)

5.1999年度中国高等学校十大科技进展(离子型声子晶体，教育部, 1999年，主要成员之一)

6.江苏省高校科技先进个人(江苏省教委，11. 1999年)

7.国家863计划十五周年先进个人(重要贡献)(科技部，总装备部, 2001年)

8.2001年度中国高等学校十大科技进展(光学超晶格及全固态激光器，教育部，主要完成人之一)

讲授课程

凝聚态光物理

科研项目

1. 化学计量比LiNbO3、LiTaO3光学超晶格材料和全固态激光器 (国家高技术863项目，主持)

2. 掺杂近化学配比铌酸锂晶体极化反转和畴工程研究 (自然科学基金，主持)

3. 准位相匹配和介电带隙材料(体块与波导)中光物理过程的研究 (教育部专项，主持)

4. 光子晶体和离子型声子晶体的制备和性能研究 (省自然科学重点基金，主持)

5. 光电功能晶体的微结构设计及其物理 (国家基础研究发展规划项目973, 参加)

6. 光学超晶格中光参量及耦合参量过程的研究 (自然科学重点基金, 参加)

学术经历

近十年来,先后参加过国家八五攀登计划项目 “微米超晶格的非线性效应及微结构工程学的研究”，九五攀登计划预研项目 “微结构晶体的线性、非线性光学效应及微结构物理研究”, 国家重点基础研究发展规划项目(973) “光电功能晶体的微结构设计及其物理研究”，国家自然科学基金重点项目 “光学超晶格中光参量及耦合参量过程的研究与应用”和国家高技术“863”项目 “倍频、自倍频光学超晶格LN、LT晶体及应用研究”等，在光学超晶格(QPM)及其非线性光学效应的理论与实验，铁电薄膜的制备与表征，光子晶体、非线性光子晶体与光波导薄膜与器件，铁电晶体铁电畴的极化反转机制及表征等方面取得一批重要的基础研究与应用基础研究成果。从1990以来在国际学术刊物上共发表论文90余篇，其中权威刊物< <科学(science)>>二篇，< <物理评论快报(phys.rev.lett.)>>二篇，< <应用物理快报(appl.phy.lett.)>>等国际一流刊物二十余篇，引用超百次。共申报国家发明专利10余项，申请美国发明专利一项。所获成果多次获科技部、教育部和江苏省的表彰。应邀在国际学术刊物上写综述文章二篇，在国际会议上作邀请报告和口头报告十余次。

业绩评价

实现了光学与声学超晶格制备技术的突破 (J.Appl.Phys.77,5481(1995)); 率先研制出蓝光倍频钽酸锂光学超晶格 (Appl.Phys.Lett.67,320(1995)); 与合作者一起提出了准周期结构中多波长倍频的理论并进行了实验验证(Phys.Rev.Lett.78,2752(1997)); 与合作者一起提出了准周期结构中准位相匹配耦合参量过程和高次谐波产生的理论并设计制备出第一块多波长倍频和直接三倍频的准周期光学超晶格(Science 278, 843(1997))( 被科技部评为 “九八” 年度我国基础科学研究十大成果); 探索出一种铁电畴成象新技术---环境二次电子成象技术(Phys.Rev.Lett.79, 2558(1997)); 与合作者一起提出了“离子型声子晶体”的新概念(Science 284, 1822(1999))( 被教育部评为 “九九” 年度中国高校十大科技进展和被科技部评选为 “九九” 年度我国基础研究十大新闻，并被科学院2000科学发展报告列为 “九九” 年度我国科学家最有代表性的工作); “三倍频光学超晶格晶体及小型全固态双波长激光器” 被863鉴定委员会鉴定为 “ 是一项从基础理论理论研究，到新材料的设计、制备和新器件研制的系统性优秀研究成果, 达到国际领先水平”。该863课题被为 “出色完成”，本人被科技部与总装评选为“863” 计划十五周年先进个人(重要贡献), 被教育部入选2001年度中国高校十大科技进展。在周期、准周期、非周期完成了系统的理论与实验工作(Appl.Phys.Lett. 81, 1573(2002); 81, 3326(2002); 78, 3006 (2001); J.Opt.Soc.Am.B 19, 1676(2002)等。

李涛、祝世宁研究组实现超构透镜光谱层析成像

南京大学马小松，祝世宁团队与合作者利用光量子游走实现有向图中心度排序

手性超构原子——现代工学院李涛、祝世宁研究组提出自旋光场调控的新方案

累得在激光器旁入睡--祝世宁

南京大学物理系主任祝世宁教授来我院讲学

祝世宁教授在光子晶体研究中发现一种新的物理效应

让世界五彩缤纷，让人生绚丽多彩

守望与拓荒——记中科院院士、南京大学物理系教授祝世宁

祝世宁院士在仙林为本科新生作讲座

《自然-光子学》刊登祝世宁院士课题组最新研究成果

祝世宁院士——南京大学

南京大学祝世宁院士应邀来我校讲学