郑卫民

点击:    日期:2022-03-22

郑卫民:(博士、教授、博士生导师)

一、联系地址:

山东大学(威海),空间科学与物理学院;E-mail: wmzheng@sdu.edu.cn

二、教育背景与工作经历

1983年8月—1987年7月:郑州大学物理系,物理专业。

1987年9月—1993年8月: 河南许昌学院,物理系,讲师。

1993年9月—1998年7月: 复旦大学物理系,凝聚态物理专业,硕-博连读。

1998年8月—2001年2月: 中科院上海技物所,红外物理国家重点实验室,副研究员。

2001年3月—2005年1月: 英国曼彻斯特大学,天文与物理学院,Research Associate。

2005年1月—2008年9月:山东大学(威海),空间科学与物理学院,教授、博导。

2008年10月-2009年10月:英国曼彻斯特大学,光科学研究所,访问学者。

2009年10月—迄今:山东大学(威海),空间科学与物理学院。

三、主持与参加的科研项目:

8)2017.8-2020.6,山东省自然科学基金面上项目:delta-掺杂在GaAs/AlAs多量子阱中受主能级间的跃迁对正入射太赫兹波探测器的应用,项目编号:ZR2017MF018.

7)2017-2019年,国家自然科学基金面上项目:无铅红外高折射率材料(Bi,Sb)2(Te,Se)3的生长与红外光学性质研究,项目编号:61675223(与中国科学院上海技术物理研究所合作项目);

6)2016年,得到了国家教育部留学归国人员科研启动基金的支持:量子阱的光学性质研究;

5)2012-2015年,主持山东省自然科学基金项目:量子限制杂质能级之间的跃迁对Teraherz发光器的应用研究,项目编号:ZR2012FM028;

4)2008-2010年,主持国家自然科学基金项目:量子限制杂质原子作为单电子量子点对Teraherz远红外发光器的应用,项目编号:60776044;

3)2007-2009年,主持山东省自然科学基金项目:量子限制杂质原子作为单电子量子点对Teraherz远红外发光器的应用,项目编号:Y2006G11;

2)2001-2004年,Internal transitions of quantum confined acceptros:Application to far-infrared emitters(参加完成英国EPSRC项目);

1)1999年获上海市自然科学基金资助:Co-Ag纳米颗粒膜的Hall效应研究;

四、讲授过的课程:

A)、本科生课程:《电动力学》、《电磁学》、《半导体器件》(双语)、《半导体材料制备技术》、《大学物理》、《量子光学基础》;

B)、研究生课程:《半导体光学性质》、《半导体物理II》、《超晶格材料与器件》。

五、研究生培养:

已培养博士研究生2名;硕士研究生8名,其中一名硕士生(黄海北)毕业时,申请得到了澳大利亚墨尔本大学全额资助博士生奖学金。

六、发表的论文:

[56]. Wei-Min Zheng,Wei-Yan Cong, Su-Mei Li, Ai-Fang Wang, Bin Li,and Hai-Bei Huang,Raman spectrum study of delta-dopedGaAs/AlAs multiple-quantum wells,Chin. Phys. B Vol. 27, No. 1 (2018) 017302.

DOI:10.1088/1674-1056/27/1/017302

[55]. Wei-Min Zheng, Su-Mei Li, Wei-Yan Cong, Ai-Fang Wang, Bin Li, Hai-Bei Huang, Excitonic transitions in Be-doped GaAs/AlAs multiple quantum well, Chin. Phys. B,2016, 25 (4): 047302,

doi: 10.1088/1674-1056/25/4/047302

[54]Article:Raman spectra of Be δ-doped GaAs/AlAs multiple quantum wells

Huang Hai-Bei ·Zheng Wei-Min· Cong Wei-Yan · Meng Xiang-Yan · Zhai Jian-Bo ·

JOURNAL OF INFRARED AND MILLIMETER WAVES 06/2014; 33(3):278-282. DOI:10.3724/SP.J.1010.2014.00278 · 0.30 Impact Factor

[53]Article: Raman and photoluminescence studies of transitions of quantum-confined acceptors

Huang Hai-Bei ·Wei‐Min Zheng· Wei‐Yan Cong · Xiang‐Yan Meng · Jian‐Bo Zhai ·

physica status solidi (b) 07/2013; 250(7). DOI:10.1002/pssb.201248293 · 1.49 Impact Factor

[52]Article: Effects of Ce concentrations, annealing conditions and fabrication processes on the photoluminescence properties of Ce-doped silica films

Wei-Yan Cong ·Wei-Min Zheng· Su-Mei Li · Ying-Jie Wang ·Xiao-Yan Liu · Hai-Bei Huang · Xiang-Yan Meng · Jian-Bo Zhai ·

physica status solidi (b) 08/2012; 249(8):1585-1589. DOI:10.1002/pssb.201147482 · 1.49 Impact Factor

[51]Article: Magneto-optical Kerr effect in CoxAg1-x nanostructured granular films

Weimin Zheng· Liangyao Chen · Junhao Chu · Zhenbo Deng ·

Science in China Series A Mathematics 04/2012; 43(7):753-759. DOI:10.1007/BF02878440 · 0.70 Impact Factor

[50]Article: Photoluminescence study of Ce-doped silica films

Wei-Yan Cong · Su-Mei Li · Ying-Jie Wang · Lin Tao · Xiao-Yan Liu ·Wei-Min Zheng·

Journal of Luminescence 01/2012; 132(1):161-163. DOI:10.1016/j.jlumin.2011.08.005 · 2.72 Impact Factor

[49]Article: Terahertz electroluminescence from Be δ-doped GaAs/AlAs quantum well

Su Mei Li ·Wei Min Zheng· Ai Ling Wu · Wei Yan Cong · Jing Liu ·Ning Ning Chu · Ying Xin Song ·

Applied Physics Letters 07/2010; 97(2):023507-023507-3. DOI:10.1063/1.3463467 · 3.30 Impact Factor

[48]Article: Intra-acceptor hole relaxation in Be δ-doped GaAs/AlAs multiple quantum wells

Li Su-Mei ·Zheng Wei-Min· Song Ying-Xin · Liu Jing · Chu Ning-Ning ·

Chinese Physics B 09/2009; 18(9):3975. DOI:10.1088/1674-1056/18/9/059 · 1.60 Impact Factor

[47]Article: Effect of quantum confinement on acceptor binding energy in multiple quantum wells

W. Zheng· S. Song · Y. Lu · A. Wang · L. Tao ·

Pan Tao Ti Hsueh Pao/Chinese Journal of Semiconductors 02/2008; 29(2):310-314.

[46]Article: Internal transitions of acceptors confined in delta-doped GaAs/AlAs multiple quantum wells

W M Zheng· A F Wang · Y B Lu · P Zhang · D Hong ·

Semiconductor Science and Technology 12/2006; 22(2):74. DOI:10.1088/0268-1242/22/2/013 · 2.19 Impact Factor

[45]Article: Far-infrared absorption studies of Be acceptors in δ-doped GaAs/AlAs multiple quantum wells

Weimin Zheng· M. P. Halsall · P. Harrison · M. J. Steer ·

Science in China Series G Physics Mechanics and Astronomy 11/2006; 49(6):702-708. DOI:10.1007/s11433-006-2008-9 · 1.41 Impact Factor

[44]Article: Binding energy and dynamics of Be acceptor levels in AlAs/GaAs multiple quantum wells

M.P. Halsall ·W. M. Zheng· P. Harrison · J.-P.R. Wells · M.J. Steer· E.E. Orlova ·

Journal of Luminescence 06/2004; 108(1-4-1-4):181-184. DOI:10.1016/j.jlumin.2004.01.039 · 2.72 Impact Factor

[43]Article: Effect of quantum confinement on shallow acceptor transitions in δ-doped GaAs/AlAs multiple-quantum wells

W. M. Zheng· M. P. Halsall · P. Harmer · P. Harrison · M. J. Steer ·

Applied Physics Letters 02/2004; 84(5):735-737. DOI:10.1063/1.1644912 · 3.30 Impact Factor

[42]Article: Effect of quantum-well confinement on acceptor state lifetime in δ -doped GaAs/AlAs multiple quantum wells

W. M. Zheng· M. P. Halsall · P. Harrison · J.-P. R. Wells · I. V. Bradley · M. J. Steer ·

Applied Physics Letters 11/2003; 83(18):3719-3721. DOI:10.1063/1.1623950 · 3.30 Impact Factor

[41]Conference Paper: QUANTUM-CONFINED IMPURITIES AS SINGLE-ATOM QUANTUM DOTS: APPLICATION TO TERAHERTZ EMITTERS

P. Harrison · M. P. Halsall ·W.-M. Zheng· J.-P. R. Wells · I. V. Bradley · M. J. Steer ·

Physics, Chemistry and Application of Nanostructures - Reviews and Short Notes to Nanomeeting 2003; 01/2003

[40]Article: Picosecond time‐resolved studies of excited state lifetime of Be acceptor in GaAs/AlAs multiple quantum wells

W.-M. Zheng· M. P. Halsall · P. Harrison · J.-P. R. Wells · I. V. Bradley · M. J. Steer ·

physica status solidi (b) 01/2003; 235(1):54 - 57. DOI:10.1002/pssb.200301527 · 1.49 Impact Factor

[39]Article: Acceptor binding energy in δ-doped GaAs/AlAs multiple-quantum wells

W. M. Zheng· M. P. Halsall · P. Harmer · P. Harrison · M. J. Steer ·

Journal of Applied Physics 11/2002; 92(10):6039-6042. DOI:10.1063/1.1516872 · 2.18 Impact Factor

[38]Article: Quantum-Confined Impurities as Single-Electron Quantum Dots: Application in Tereherz Emitters

P Harrison · M.P. Halsall ·W.-M Zheng·

Materials Science Forum 01/2002; 384-385. DOI:10.4028/www.scientific.net/MSF.384-385.165

[37]Article: Magneto-optical Kerr properties of Co-Ag-annealed granular films

Weimin Zheng· H. Wang · Song-You Wang · Liang-Yao Chen ·Junhao Chu ·

Proceedings of SPIE - The International Society for Optical Engineering 11/2000; DOI:10.1117/12.408307 · 0.20 Impact Factor

[36]Article: Raman scattering and infrared absorption of silicon nanocrystals in silicon oxide matrix

Zhixun Ma · Xianbo Liao ·Weimin Zheng· Jian Yu · Junhao Chu ·

Proceedings of SPIE - The International Society for Optical Engineering 11/2000; DOI:10.1117/12.408447 · 0.20 Impact Factor

[35]Article: Doping caused great magnetoresistance change in Co-based sandwiches

H. Wang · QY Jin · Jiaju Ma · Yuxing Xia · Yingli Chen ·Weimin Zheng· Junhao Chu ·

Proceedings of SPIE - The International Society for Optical Engineering 11/2000; DOI:10.1117/12.408300 · 0.20 Impact Factor

[34]Article: Photoinduced polarization inversion of excitons in conjugated polymer films

Rouli Fu · Junhao Chu ·Weimin Zheng· Guang-Yu Guo · Xin Sun·

Proceedings of SPIE - The International Society for Optical Engineering 11/2000; DOI:10.1117/12.408368 · 0.20 Impact Factor

[33]Article: Exchange biasing in molecular-beam-epitaxy-grown Fe/Fe50Mn50 bilayers

C. Jing · X.-F. Jin · G.-S. Dong · X.-Y. Gong · L.-M. Yu ·W.-M. Zheng·

[32]Article: Annealing effect on the magneto-optical properties of CoxAg100-x granular films

Song-You Wang · Zuo-Cheng Shen ·Wei-Min Zheng· Rong-Jun Zhang · Yu-Xiang Zheng · Shi-Ming Zhou · Liang-Yao Chen ·

Physica B Condensed Matter 04/2000; 279(1):109-112. DOI:10.1016/S0921-4526(99)00682-1 · 1.32 Impact Factor

[31]Article: The magneto-optical Kerr effect enhancement in Co2Ag98 granular films

W. M. Zheng· H. Wang · S. Y. Wang · J. H. Chu · L. Y. Chen ·

[30]Article: The Magneto-Optical Kerr Effect Enhancement in Co x Ag 1 - x Granular Films

Wei-Min Zheng· Liang-Yao Chen · Jun-Hao Chu ·

physica status solidi (b) 08/1999; 214(2):463-469. DOI:10.1002/(SICI)1521-3951(199908)214:2<463::AID -pssb463>3.0.CO;2-H · 1.49 Impact Factor

[29]Article: Enhancement of the Kerr effect in Co-Ag granular films near the plasma edge

LY Chen · SY Wang · R. J. Zhang ·W. M. Zheng· YX Zheng · YM Yang · B. Y. Li ·

Journal- Korean Physical Society 07/1999; 35:S157-S161. · 0.42 Impact Factor

[28]Article: Magneto mageto-optical properties of Co34Cu66 granular films

S. Y. Wang · L. Y. Chen ·W. M. Zheng· R. J. Zhang · D. L. Qian · Y. X. Zheng · X. F. Jin · B. Y. Li ·

[27]Article: Magneto-optical properties of Co-Ag granular films

Wei-Min Zheng· Song-You Wang · Dong-Liang Qian · Yu-Xiang Zheng · Yue-Mei Yang · Bai-Yun Li · Liang-Yao Chen ·

Journal of Magnetism and Magnetic Materials 06/1999; 198:210-212. DOI:10.1016/S0304-8853(98)01069-5 · 1.97 Impact Factor

[26]Article: Study of the Kerr effect of CoxAg100-x granular films

Song-You Wang ·Wei-Min Zheng· Dong-Liang Qian · Rong-Jun Zhang · Yu-Xiang Zheng · Shi-Ming Zhou · Yue-Mei Yang · Bai-Yun Li · Liang-Yao Chen ·

Journal of Applied Physics 05/1999; 85(8-85):5121 - 5123. DOI:10.1063/1.369097 · 2.18 Impact Factor

[25]Article: The Magnetic Coupling, Optical and Magneto-Optical Properties of Oscillation Observed in Sputtered Co–Al/Cu Multilayers

W. M. Zheng· S. Y. Wang · D. L. Qian · Y. X. Zheng · S. M. Zhou · L. Y. Chen · X. L. Shen · H. Xia ·

physica status solidi (a) 05/1998; 167(1):223-232. DOI:10.1002/(SICI)1521-396X(199805)167:1<223::AID -pssa223>3.0.CO;2-7 · 1.21 Impact Factor

[24]Article: Giant magnetoresistance effect in granular-type Co-Ag/Ag multilayers

Rong-Jun Zhang · Liang-Yao Chen · Shi-Ming Zhou · Yu Wang ·Bo Xu · Dong-Liang Qian ·Wei-Ming Zheng· Yu-Xiang Zheng ·

[23]Proceedings of SPIE - The International Society for Optical Engineering 02/1998; 3175. DOI:10.1117/12.300729 · 0.20 Impact Factor

[22]Article: The medium-related optical constants of noble metals observed by ellipsometric study

Yu Wang · Liang-Yao Chen · Bo Xu ·Wei-Ming Zheng· Rong-Jun Zhang · Dong-Liang Qian · Shi-Ming Zhou · Yu-Xiang Zheng ·Ning Dai · Yu-Mei Yang · Kou-Bao Ding · Xiu-Miao Zhang ·

Thin Solid Films 02/1998; 313-314:232-236. DOI:10.1016/S0040-6090(97)00824-9 · 1.76 Impact Factor

[21]Article: MAGNETO-OPTICAL PROPERTIES OF SPUTTERED CoPt ALLOY FILMS WITH PERPENDICULAR ANISOTROPY

Ming Li · Zhi-Hong Jiang ·Wei-Min Zheng· Liang-Yao Chen · De-Fang Shen ·

01/1998; 22(S_2_MORIS_97):S2_77-80. DOI:10.3379/jmsjmag.22.S2_77

[20]Article: Oscillation effects in the magnetic and optical properties of CoAl/Cu multilayers

W. M. Zheng· S. M. Zhou · Y. Wang · W. R. Zhu · R. J. Zhang · Y. X. Zheng · L. Y. Chen · A. Hu · H. R. Zhai ·

Journal of Magnetism and Magnetic Materials 01/1998; 177:1315-1316. DOI:10.1016/S0304-8853(97)00991-8 · 1.97 Impact Factor

[19]Article: The effect of interference on magneto-optics in magneto-optical layered structures

Y. Wang ·W. M. Zheng· S. M. Zhou · LY Chen · W. R. Zhu · D. L. Qian · YX Zheng · HY Zhang · J. Huang ·

Journal of Applied Physics 02/1997; 81(4):1956-1961. DOI:10.1063/1.364051 · 2.18 Impact Factor

[18] Article: Oscillations of interlayer coupling and magneto‐optics in sputtered Co–Al/Cu multilayers

Shi‐Ming Zhou · Liang‐Yao Chen ·Wei‐Ming Zheng· Wei‐Rong Zhu · Yu Wang · Ya‐Dong Wang · Yu‐Xiang Zheng ·Qing‐Yuan Jin · You‐Hua Qian ·

Applied Physics Letters 06/1996; 69(1):127-129. DOI:10.1063/1.118097 · 3.30 Impact Factor

[17]. Article:Observation of localized above‐barrier excitons in (CdTe)1(ZnTe)2/ZnTe short‐period‐superlattice multiple quantum wells by photoluminescence spectroscopy

Pudong Lao · Yile Guo ·Weimin Zheng· G. G. Siu · Jie Li · Shixin Yuan

Applied Physics Letters 11/1994; 65(16-65):2090 - 2092. DOI:10.1063/1.112802 · 3.30 Impact Factor

[16].翟剑波,黄海北,李素梅,丛伟艳,郑卫民*,基于量子限制受主带间跃迁太赫兹探测器的制备与测量,发光学报,2014,35(8):986-991。

[15].刘静,初宁宁,宋迎新,李素梅,丛伟艳,郑卫民*量子限制受主远红外电致发光器件的制备与测量,物理学报,2010,59(4):2728-2733。

[14].宋迎新,郑卫民*刘静,初宁宁,李素梅,量子限制效应对delta掺杂GaAs/AlAs多量子阱中铍受主态寿命的影响,物理学报,第58卷第9期,6471(2009)。

[13].李素梅,宋淑梅,吕英波,王爱芳,吴爱玲,郑卫民,量子限制受主的光致发光研究,物理学报,第58卷第7期,4936页(2009)。

[12].初宁宁,郑卫民*李素梅,宋迎新,刘静,量子限制效应对受主跃迁的影响,红外,第30卷第11期,12(2009)。

[11].郑卫民,吕英波,宋淑梅,王爱芳,陶琳,GaAs/AlAs量子阱中受主束缚能和光致发光,发光学报,第29卷第1期,156(2008)。

[10].Zheng Weimin, Li Sumei, Lu Yingbo, Wang Aifang, and Wu Ailing, Photoluminescence of the Beryllium Acceptor at the Centre of Quantum Wells,半导体学报 29(11),2115(2008)。

[9].d-搀杂GaAs/AlAs多量子阱中铍受主远红外吸收研究。郑卫民, M. P. Halsall, P. Harrison, M. J. STEER, 中国科学G辑:物理学 力学 天文学,2007年第37卷,第1期:60-65.

[8]. CoxAg1-x纳米颗粒膜的磁光Kerr效应,郑卫民,王辉,褚君浩等 中国科学(A辑),第30卷,第4期(2000年)

[7].Co2Ag98颗粒膜中磁光克尔效应的增强,郑卫民,王辉,王松有,褚君浩等红外与毫米波学报,第19卷,第1期(2000年)

[6]. Co-Ag颗粒膜的磁光克尔效应,郑卫民,褚君浩,陈良尧,王松有,功能与材料学报 第31卷,第5期(2000年)

[5].分子束外延生长Fe/Fe50Mn50双层膜的交换偏置,敬 超 金晓峰 董国胜 龚小燕 郁黎明郑卫民 物理学报 第49卷,第10期(2000年)

[4]. Fe-Ni/Cu磁性多层膜中层间耦合和磁性的研究,郑卫民,周仕明,陈良尧等 复旦学报(自然科学版) Vol.36 No.3 June 1997.

[3]. Co-Al/Cu多层膜中层间耦合和磁电阻的振荡,周仕明,陈良尧,朱伟荣,郑卫民等 科学通报,第41卷,第18期,1996年9月。

[2]. Co-Al/Cu多层膜中层间耦合对光学性质和磁光效应的作用.王昱,朱伟荣,郑卫民等(复旦学报理科版,第一期,1998)

[1].用椭偏术研究接触介质有关的贵金属的介质函数,许波,陈良尧,王昱,张荣君,郑卫民等,物理学报 第47卷,第5期,(1998)

参加的国际学术会议:

[5]、Shallow acceptor transitions in delta-doped GaAs/AlAs multiple-quantum wells, W. M. Zheng, M. P. Halsall, P. Harmer, et al. Condensed Matter and Materials Physics Conference, 6-9 April 2003, Belfast, Northern Ireland, UK.

[4]、The dynamic properties of intra-acceptor level scattering in delta-doped AlAs/GaAs multiple quantum wells,W M Zheng, M P Halsall, P Harrison, et al. CMMP 2002-Condensed Matter and Materials Physics, 7-11 April 2002 Brighton, UK.

[3]、Manipulation of intra-acceptor energy levels and ordering in GaAs/AlAs quantum wells studied by photoluminescence,W M Zheng,M P Halsall, P Harmer, et al. 26th International Conference on the Physics of Semiconductors, 29July, 2002, Edinburgh, Scotland, UK.

[2]、P. Harrison, M. P. Halsall,W.-M. Zheng,J.-P. R. Wells and I. V. Bradley, Quantum confined acceptors as single-electron quantum dots: Application in Terahertz emitters, invited talk at 11th International Symposium on Ultrafast Phenomena in Semiconductors, Vilnius, August 2001 .

[1]、M. P. Halsall, P. Harrison,W.-M. Zheng, J.-P. R. Wells and I. V. Bradley, Quantum confined acceptors as single-electron quantum dots: Free-electron laser studies and application to Terahertz emitters,Modulated Semiconductor Structures (MSS10), Linz, Austria, July 2001.

 

 



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