王選章

王選章

王選章,男,1957年10月生,博士。1992年晉升教授,1995年被評為黑龍江省有突出貢獻中青年專家,1996年享受國務院政府津貼,1998年被評為國家級有突出貢獻中青年專家,省級重點學科“凝聚態物理”學科帶頭人。

曾任哈爾濱師範大學校長。

現任政協黑龍江省第十二屆委員會科教文衛體委員會副主任。

基本介紹

  • 中文名:王選章
  • 國籍:中國
  • 民族:漢族
  • 出生日期:1957年10月生
  • 職業:博士
  • 主要成就:省級重點學科“凝聚態物理”學科帶頭人
人物履歷,個人榮譽,人物成就,研究方向,科研項目,發表論文,任免信息,

人物履歷

曾任哈爾濱師範大學物理系副主任,主任。哈爾濱師範大學副校長。
哈爾濱師範大學校長。
2018年1月——政協黑龍江省第十二屆委員會科教文衛體委員會副主任。

個人榮譽

曾經獲黑龍江省科技進步三等獎一項,二等獎二項(均為第一獲獎者)曾主持或正在主持國家級和省部級項目8項,並為黑龍江省傑出青年基金獲得者。

人物成就

1.黑龍江省科技進步獎三等獎:磁性超晶格及多層膜的磁學和熱學性質研究,1995年(第一獲獎人);
2.黑龍江省科技進步獎二等獎:磁性超晶格有效尺寸效應及表面激發譜研究,1998年(第一獲獎人);
3.黑龍江省科學技術獎(自然類)二等獎:磁性多層膜中的磁激子、極化子和磁光性質研究,2003年(第一獲獎人);
4.教育部首屆骨幹教師資助計畫優秀教師獎(2004年);
5.獲黑龍江科學技術獎(自然類) 二等獎:人工結構體系磁光、電光性質研究,2009年(第一獲獎人)

研究方向

1、磁性超晶格與多層膜的線性與非線性電磁性質研究;
2、磁光子晶體的磁光性質等研究。

科研項目

1.1997.1~1999.12主持國家自然科學基金(19574014):磁性多層膜的偶極——交換激發譜和靜磁模式。
2.2004.1~2006.12主持國家自然科學基金10374024:磁性多層膜中非線性靜磁波,電磁極化子,與磁光性質研究
3.1997.1~1999.12主持黑龍江省傑出青年基金:磁性多層膜和超晶格線性和非線性激發譜研究(已結題);
4.2001.1~2003.12主持教育部首屆高等學校骨幹教師項目:磁性多層膜中非線性電磁波的傳播性質(已結題)
5.2002.1~2004.12主持黑龍江省自然科學基金(A01-05):磁性多層膜的磁光性質研究(已結題)
6.2005.1~2007.12主持黑龍江省自然科學基金(TA2005-15):σ-π共軛高分子導電機理的研究(已結題)
7.2010.1~2012.12主持黑龍江省自然科學基金重點項目(ZD200913):新型太赫茲波導器件材料的線性與非線性光學性質研究
8.2010.1~12主持國家自然科學基金項目(60940021): 毫米到遠紅外電磁波在具有磁性介質組分或缺陷層的光子晶體中的傳播性質
9.2011.01- 2013.12主持國家自然科學基金項目(11074061):反鐵磁體系在毫米遠紅外頻區的磁非線性光學性質研究

發表論文

在國內外學術期刊發表的主要論文如下:
1. Nd-Fe-B (B≤50at.%)三元系相圖的研究,《中國科學》A輯,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)模型具有再次近鄰反鐵磁相互作用晶格基態,《物理學報》Vol.37, No.10, 1988, 1707
4. Ising 自旋 (s=1/2)反鐵磁超晶格低溫熱力學,《低溫物理學報》 Vol.11, No.3, 1989, p.179
5. Ising 自旋 (s=1) 周期超晶格反鐵磁基態,《低溫物理學報》 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. 周期性調製稀釋ISING 體系的相變,《物理學報>>,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.類維萍,賈城,王選章,渦流對側向反鐵磁/非磁超晶格中表面推遲模的影響,<<物理學報>> 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,王選章, 一維受限反鐵磁光子晶體的性質, <<光學學報>> Vol.28 No12 (2008)
48. 尹永琦, 李華, 馬佳寧, 賀澤龍, 王選章, 多端耦合量子點分子橋的量子輸運特性研究, <<物理學報>> 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)
59. Jing Bai, Shu-Fang Fu, Sheng Zhou and Xuan-Zhang Wang, Reflective optical bi-stability of antiferromagnetic films, The European Physical Journal B83, No.3,343-348(2011)
60.Gao Bo, Zhao J-x, Cai Qinghai, Wang Xiaoguang, and Wang Xuan-Zhang, Doping of Calcium in C60 Fullerence for enhancing CO2 capture and N2O Transformation: A Theoretical Study, J. Phys. Chem. A115 (36), 9969-9976(2011)
61. Jin-Xiang Zhao, Yi-Hong Ding, Xiao-Gang Wang, Qing-Hai Cai, And Xuan-Zhang Wang, Diamond and Related Materials Vol.20 No.1, 36-41(2011)
62. 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
63. Zhao J-X, Gao Bo,Cai Qing-Hai, Wang Xiao-Guang, and Wang Xuan-Zhang,Theoretical study of phenol adsorption on the (8, 0) silicon carbide nanotube,Chemistry and Material Science : Theoretical Chemistry Accounts Vol29 No.1, 85-92
(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, Vol.324, No.2, pp.183-189 (2012)
65. Jin-Xing Ta, Xuan-Zhang Wang, Optical properties of antiferromagnetic/ ion-crystal superlattices, J. Magn. Magn. Materials, Vol.324 No.1, (2012) pp.72-77
66. Yu-Ling Song, Jin-Xing Ta and Xuan-Zhang Wang, High second-harmonic generation of antiferromagnetic/ion-crystal composite medium with negative refraction, J. Magn. Magn Materials Vol.324 No.6, 1214-1217 (2012)
67. Jin-Xing Ta and Xuan-Zhang Wang, Magneto-phonon polaritons in two-dimensional antiferromagnetic/ion-crystalic photonic crystal, Photonics and nanostructures-Fundamentals and Applications, Vo.l0 No.1 (2012) pp.1-8
68. Yan Zhao, Shu-Fang Fu and Xuan-Zhang Wang, Nonlinear Far Infrared Transmission of Antiferromagnetic Fabry-Perot Resonator, IEEE Transaction on Magnetics, Vol.48 No.4, 1597-1600(2012)
69. 張強,周勝,厲強華,王選章,付淑芳,一維反鐵磁光子晶體光學雙穩效應研究,《物理學報》 Vol.61, No.15, 157501-7(2012)
70. 周勝, 王選章,付淑芳,厲強華,曲秀榮,梁爽,張強,Voigt 位型下電介質/反鐵磁體/電介質結構的二次諧波生成非倒易性研究,《物理學報》 Vol.61 No.18, 187501-(2012)
71. Shu-Fang Fu, Jing Bai and Xuan-Zhang Wang, Effects of magnetic field on discotic nematic liquid crystalline polymers under simple shear flow, Journal of Applied Polymer Science, (2012)
72. Xuan-Zhang Wang, Coupled Edge Plasmon Modes of Metal/Dielectric Multi-Wedges, Chinese Physics B, (2013),accepted for publication
73. Xuan-Zhang Wang and Yan Zhao, High Faraday effect of antiferromagnetic/ion- crystal photonic crystals in far infrared region, J. Appl. Phys. (2013), accepted for publication.

任免信息

2017年12月,根據黑龍江省人民政府關於孫景春等任免職的通知,免去王選章的哈爾濱師範大學校長職務,免職時間2017年9月29日。

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