王选章，1957年10月生，博士。1992年晋升教授，1995年被评为黑龙江省有突出贡献中青年专家，1996年享受国务院政府津贴，1998年被评为国家级有突出贡献中青年专家，省级重点学科“凝聚态物理”学科带头人。

荣誉

任职

发表论文

荣誉

曾经获黑龙江省科技进步三等奖一项，二等奖二项（均为第一获奖者）曾主持或正在主持国家级和省部级项目8项，并为黑龙江省杰出青年基金获得者。

任职

曾任哈尔滨师范大学物理系副主任，主任。1997年4月任哈尔滨师范大学副校长。现为哈尔滨师范大学校长。

发表论文

在国内外学术期刊发表的主要论文如下：

1. Nd-Fe-B (B≤50at.%)三元系相图的研究，《中国科学》A辑，Vol.28, No.10, 1985, p.909

2. Phase Diagrams of Nd-Fe-B Ternary System, <<Scientia Sinica A>>, Vol.29, No.11, 1986, p.1172

3. 混合自旋 （S=1,1/2）模型具有再次近邻反铁磁相互作用晶格基态，《物理学报》Vol.37, No.10, 1988, 1707

4. Ising 自旋 （s=1/2）反铁磁超晶格低温热力学，《低温物理学报》 Vol.11, No.3, 1989, p.179

5. Ising 自旋 (s=1) 周期超晶格反铁磁基态，《低温物理学报》 Vol.11, No.1, 1989, p.23

6. Thermodynamics at low temperature of Ising antiferromagnetic superlattices, Chinese Physics (USA), Vol.10, No.4, 1990, p.988

7. Temperature dependence of magnetization and paramagnetism of ferromagnetic- antiferromagnetic superlattices, J. Phys. Condens. Matters, Vol.2, No.26, 1990, p.5765

8. Properties of a superlattice composed of identical ferromagnetic films with antiferromagnetic interfacial coupling, J. Phys. Condens. Matters, Vol.3, No.27, 1991, p.5107

9. Temperature and field dependence of magnetization of superlattices with antiferromagnetic coupling, Phys. Lett. A, Vol.154, No.7/8, 1991, p.425

10. Magnetic properties of a transverse Ising film with s=1/2, J. Phys. Condens. Matters, Vol.4, No.13, 1992, p.3651

11. Temperature dependence of magnetic susceptibility of antiferromagnetic superlattice, Phys. Lett. A, Vol.168, 1992, p.443

12. Magnetic properties of antiferromagnetic superlattices, J. Phys. Condens. Matters, Vol.5, No.21, 1993, p.3443

13. Phase diagrams of transverse Ising film, Physica A, Vol.193, No.1, 1993, p.133

14. Magnetisation and susceptibilities of diluted Ising thin magnetic film in a transverse field, Physica A, Vol.232, No.3, 1996, p.315

15. Reflection and transmission by magnetic multilayers, J. Magn. Magn. Materials, Vol.212, No.2, 2000, p.82

16. Transmission by antiferromagnetic-nonmagnetic multilayers, J. Phys. Condens. Matters, Vol.11, No.13, 1999, p.2697

17. –k magnetostatic guided modes in ferromagnetic films, Phys. Lett. A, Vol.196, No.3, 1994, p.281

18. Phase diagrams of a diluted Ising thin ferromagnetic film in a transverse field, Phys. Rev. B., Vol.51, No.10, 1995, p.6715

19. Phase diagrams of a diluted Ising ferromagnetic film with spin-1 in a transverse field, J. Phys. Condens. Matters, Vol.8, No.31, 1996, p.5745

20. 周期性调制稀释ISING 体系的相变，《物理学报>>，VOL.45, No.12, 1996, p.2054

21. Effects of eddy currents on retarded modes of antiferromagnets, Phys. Rev. B. Vol.59, 1999, p.3310.

22. Magnetostatic waves of metal magnetic/nonmagnetic superlattices, Phys. Rev. B. 61, No.14, 2000, p.9494.

23. Magnetostatic modes of a lateral antiferromagnetic/nonmagnetic superlattice, Phys. Rev. B., Vol.55, No.18, 1997, p.12424.

24. Magnetostatic modes of antiferromagnet in a magnetic field nonmal to the surface, J. Magn. Magn. Materials, Vol.195, 1999, p.508.

25. Magnetostatic surface and guided modes of lateral-magnetic-superlattice films,

Phys. Rev. B. Vol.50, No.18 , 1994, p.13472.

26. Magnetostatic modes on lateral magnetic superlattices, Phys. Lett. A. Vol.187, 1994, p.325.

27. Standing waves in a rectangular magnetic wire, Phys. Lett. A Vol.199, 1995, p.224.

28. Magnetostatic modes of lateral magnetic-superlattice films in a transverse field, J. Phys. Condens. Matter, Vol.9, 1997, p.5777.

29. Magnetostatic modes of lateral magnetic superlattice in an applied field arbitrary direction, Phys. Rev. B.Vol.55, No.18, 1997, p.12402.

30. Reflection and transmission by magnetic multilayers, J. Magn. Magn. Materials Vol.212, 2000, p.82.

31. Transmission by antiferromagnetic-nonmagnetic multilayers, J. Phys.

Condens. Matter Vol.11, No.13, 1999, p.2697.

32. Retarded modes of a lateral antiferromagnetic/nonmagnetic superlattices, Phys. Rev. B. Vol.52, No.18, 1995, p.13353.

33. Surface retarded modes of magnetic superlattices with antiferromagnetic coupling, J. Magn. Magn. Materials, Vol.257, No.2, 2003, p.151

34. Nonlinear magnetostatic surface waves of magnetic multilayers: Effective- medium theory, Phys. Rev. B. Vol.63, No.5, 2001, p.054415

35. Magnetostatic surface waves of lateral-magnetic superlattices, Phys. Lett. A. Vol.255, 1999, p.178.

36. Xuan-Zhang Wang and Shu-Fang Fu, Dispersion properties of nonlinear bulk polaritons in uniaxial antiferromagnetic/nonmagnetic superlattices, J. Magn. Magn. Materals, Vol.271, No.2-3, 334(2004).

37. Xuan-Zhang Wang and Hua Li, Nonlinear polaritons in antiferromagnetic superlattices, Phys. Rev. B,Vol.72, No.5, 054403 (2005).

38. Xuan-Zhang Wang, The Faraday effect of an antiferromagnetic photonic crystal with a defect layer, J. Phys.: Condens. Matters, Vol.17, No.36, 5447 (2005).

39. Jing Bai, Sheng Zhou, Feng-Li Liu and Xuan-Zhang Wang, Nonlinear infrared transmission through and reflection off antiferromagnetic films, J. Phys.: Condens. Matters, Vol.19, No.4 046217(2007).

40. Rui-Hua Zhu, Cheng Jia and Xuan-Zhang Wang, Magnetostatic modes of a lateral ferromagnetic/ferromagnetic superlattice, Physics Letters A, Vol.355, No.1, 77 (2006)

41．类维萍，贾城，王选章，涡流对侧向反铁磁/非磁超晶格中表面推迟模的影响，<<物理学报>> Vol.57 No.1, 535(2008)

42．Di Zhang, Jianing Ma, Hua Li, Shu-Fang Fu and Xuan-Zhang Wang, Anti-resonance of electron tunneling through a four-quantum-dot ring with two side-coupled quantum dots, Phys. Lett. A, Vol.372, No.17, 3085 (2008)

43. Hong Gao, Zhou mingyu, Ji Hong, Xuan-Zhang Wang and Zhiguo Zhang, Synthesis and photoluminescence of Sb-induced ZnO nanowires along [0-1,1,1] with island attached, J. Alloy and Compounds, Vol.464. 234-237 (2008).

44. Hong Gao, Xitian Zhang, Mingyu Zhou, Zhiguo Zhang and Xuan-Zhang Wang, Nanohelices modified by SiO2 sheathed ZnO disks, Nanotechnology Vol.18, 065601(2007)

45. Yan Zhao, Hong Gao, Sheng Zhou, Hua Li Xuan-Zhang Wang, Nonlinear Response of Uniaxial Ferromagnets and Applications to Surface Magnetostatic Waves J. Magn. Magn. Materials, Vol.320, No.21, 2560-2567(2008)

46. Zhou Sheng and Xuan-Zhang Wang, Method of enhancing second-harmonic generation of antiferromagnetic film, Journal of the Optical Society of America B, Vol.25, No.10, 1639-1644(2008).

47. 宋玉玲,王选章, 一维受限反铁磁光子晶体的性质, <<光学学报>> Vol.28 No12 (2008)

48. 尹永琦, 李华, 马佳宁, 贺泽龙, 王选章, 多端耦合量子点分子桥的量子输运特性研究, <<物理学报>> Vol.58 No.6, 69(2009).

49. Yu-Ling Song, Jing-Xing Ta, Hua Li and Xuan-Zhang Wang, Presence of left-handedness and negative refraction in antiferromagnetic/ionic-crystal multilayered films, J. Appl. Phys. Vol.106, No.6, 063119 (2009).

50. Sheng Zhou, Hua Li, Shu-Fang Fu and Xuan-Zhang Wang, Second-Harmonic Generation from an antiferromagnetic film in one-dimension photonic crystals, Phys. Rev. B, Vol.80 No.20, 205409 (2009) (12 pages)

51. Jing-xiang Zhao, Yi-hong Ding, Qing-hai Cai, Xiao-guang Wang andXuan-Zhang Wang, Theoretical Studies of the Magnetism of the First-Row Adatom on the Silicon Carbide (SiC) Nanotube, J. Phys. Chemistry C Vol.114, No.9 , 3825-3829 (2010)

52. Jin-Xing Ta, Yu-Ling Song and Xuan-Zhang Wang, J. Appl. Phys.Vol.108, No.1 013520(2010)(4 pages)

53. Shu Fang Fu, Jing Bai, Sheng Zhou, Xiu Rong Qu, Hua Li, Xuan Zhang Wang, Effects of molecular shape on polymeric liquid crystal, Key Engineering Materials, Vol.428-429, 216-219(2010)

54. Jing Bai, Shu Fang Fu and Xuan-zhang Wang, Dispersion properties of bulk polaritons in uniaxial antiferromagnetic film, Key Engineering Materials Vol.428-429, 198-201 (2010)

55. Jing Bai, Shu-Fang Fu, Sheng Zhou, Li Niu and Xuan-Zhang Wang, Nonlinear transmission through and reflection off antiferromagnetic sandwich, Materials Science Forum, Vol.663-665 (Optoelectronic materials), 995-998 (2010)

56. Jing-Xiang Zhao, Yi-Hong Ding, Qing-Hai Cai, Xiao-Guang Wang, and Xuan-Zhang Wang, Chemical Functionalization of pyridine-like and porphyrin-like nitrogen-doped carbon nanotubes with transition metal atoms: A theoretical study, Theoretical Chemistry Accounts, Vol.127 (5-6), 727-733 (2010)

57. Shu-Fang Fu and Xuan-Zhang Wang, Effects of magnetic field on shear stress of nematic liquid crystalline polymer under simple shear flow, Journal of Polymer Science: Part B48: Polymer Physics, Vol.48 (17), 1919-1926 (2010).

58. Yu-Ling Song, Jin-Xing Ta and Xuan-Zhang Wang, Band gaps of two-dimensional antiferromagnetic photonic crystal, J. Appl. Phys. Vol.110. No.1 013525-5 (2011).

59. Yan Zhao, Shu-Fang Fu and Xuan-Zhang Wang, Bistable transmission of antiferromagnetic Fabry-Perot resonator, J. Appl. Phys. Vol.110. No.3，023512-6 (2011)

60 Jin-Xing Ta and Xuan-Zhang Wang, Magneto-phonon polaritons in two-dimensional antiferromagnetic/ion-crystalic photonic crystal, Photonics and nanostructures-Fundamentals and Applications, DOI.10.1016(2011)

61. Yu-Ling Song, Jin-Xing Ta and Xuan-Zhang Wang, High second-harmonic generation of antiferromagnetic/ion-crystal composite medium with negative refraction, Phys. Lett. A (2011)

62. Jing Bai, Shu-Fang Fu, Sheng Zhou and Xuan-Zhang Wang, Reflective bi-stability of antiferromagnetic films, European Physical Journal B, (2011)

63.Gao Bo, Zhao J-x, Cai Qinghai, Wang Xiaoguang, and Wang Xuan-Zhang, Theoretical Evaluation the Application of Calcium-Decorated C60 Fullerene for the Capture or Transformation of CO2 and N2O, J. Phys. Chem. (2011)

64. Dongmei Sun, Shufang Fu, Sheng Zhou and Xuan-Zhang Wang, Numerical simulation of optical bi-stability in antiferromagnetic sandwich structure, J. Magn. Magn. Materials, (2011)

65. Jin-Xing Ta, Xuan-Zhang Wang, Optical properties of antiferromagnetic/ ion-crystal superlattices, J. Magn. Magn. Materials, accepted for publication (2011)

66. Xuan-Zhang Wang and Hua Li, Nonlinear propagation of electromagnetic waves in antiferromagnets, in Propagation of Electromagnetic Waves in Complex Matter, edited by by Ahmed Kishk, (Intech-Open Access Publisher, 2011)pp.55-96, Ch.3