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石志东 研究员|博导 |
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办公室: |
tyc1286太阳集团宝山东校区翔英楼(14号楼)T517室 |
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通信地址(邮政编码): |
上海市上大路99号83信箱(200444) |
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电话: |
021-66138190 |
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电子邮件: |
zdshi@shu.edu.cn |
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个人主页: |
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【学术经历】 一九六四年十二月生于安徽, 一九八○年至一九八四年在北京大学物理系学习, 一九九四年在中国科学院等离子体物理研究所获工学硕士学位, 一九九七年在中国科技大学获理学博士学位。一九九七年至二○一二年,在tyc1286太阳集团光纤研究所从事特种光纤的研究工作,二○一二年至二○一九年,任上海市电子物理研究所书记兼常务副所长,二○二○年至今,任上海市电子物理研究所和tyc1286太阳集团光纤研究所负责人。研究领域涉及特种光纤理论及传感应用、偏振光学和光电信息处理等方面,负责或参加国家自然科学基金及上海市科研项目近二十项, 在核心刊物上发表论文六十多篇。中国光学学会高级会员, 中国物理快报特约评审, 国际光学工程学会会员。 【科研项目】 ◎ 国家自然科学基金项目:具有高双折射率的光子晶体光纤的保偏特性研究(2002-2004),项目负责人 ◎ 国家自然科学基金项目:多维形变双折射多孔光纤偏振传输特性研究(2008-2010),项目负责人 ◎ 国家自然科学基金项目:光纤波片的宽带特性和抗温度微扰特性的实验研究(2000-2002),主要参加者 ◎ 国家自然科学基金项目:复合材料缺陷的压电-光纤混合传感器兰姆波检测方法研究(2011-2013),主要参加者 ◎ 国家自然科学基金项目:磁光光子晶体慢光干涉型光纤磁场/电流传感器研究(2012-2014),主要参加者 ◎ 国家自然科学基金项目:超声兰姆波与复合材料脱层缺陷相互作用研究(2015-2018),主要参加者 ◎ 国家自然科学基金项目:超声兰姆波逆散射拓扑成像方法研究(2017-2020),主要参加者 ◎ 上海市科委重点项目:宽带波片光纤的制造技术及应用(2002-2004),
主要参加者 ◎ 上海市科委应用技术开发项目: 安全防范-嵌入式数字图象码流天线传输系统(2005-2006), 主要参加者 ◎ 上海市科委应用技术开发项目: 嵌入式综合媒体数字控制系统(2005-2008), 主要参加者 ◎ 上海市教委重点学科建设基金项目: 宽带光纤波片和集成光纤光路技术及其在通信与传感系统中的应用(2001-2003), 主要参加者 ◎ 上海市教委重点学科建设开放基金项目:D形光纤及光纤光栅的研究与应用(2007-2008), 主要参加者 ◎ 上海市教委发展基金项目: 特种光纤的偏振特性的长波长测试系统(1998-2000),项目负责人 ◎ 上海市教委青年基金项目: 偏振无关宽带抽头耦合器的研制(2002-2004),主要参加者 ◎ 上海市教委发展基金项目: 光子晶体光纤的扰动特性实验研究(2005-2007),主要参加者 ◎ 上海市教委青年基金项目: BGO电光晶体在光学电压互感器应用中的研究(2006-2008),主要参加者 ◎ 上海市教委创新基金项目: TE模作为基模传输的微结构光子晶体光纤研究(2008-2011),主要参加者 【发表论文】 ★ Zhi-dong Shi, Experimental observation
of spectral transmittance of highly birefringent fibre with high spin rate, Optics Communications,
1999, 171(1-3): 61-64 ★ SHI Zhi-Dong, JI Min-Ning and
Bao Huan-Huan, Polarization State Evolution in Fiber Polarization Controller
Influenced by Phase Difference, Chinese Physics Letters, 2007, 24(7):
1967~1970 ★ Lin, Jian-Qiang, Shi,
Zhi-Dong*, Li, Ming-Jia, Chen, Hua, Structural design for birefringent holey fiber with
a beat length insensitive to wavelength, Applied
Optics,2009,48(25): F55-F60 ( *
Corresponding author) ★ SHI Zhi-dong, LI
Zhong-yuan, CHEN Yao, Disruption of Charged Dust Grains in Cometary Plasma Environments,Chinese Physics Letters, 1998, 15(2): 155-156 ★ Zhidong Shi,Shengnan Bi,Minning Ji,Lihui Wang, Performance analysis for all-fiber polarization transformer with
specific spun rate profile,Optics Communications, June 2017, 392: 20-24 ★ Wang Lihui,Shi Zhidong*,Tang Sisi,Analysis on stability of
polarization- transforming performance of fiber wave plate,Optik International
Journal for Light & Electron Optics, 2018,
157:1249-1258 ★ Zhidong Shi, Sisi Tang,
Haiyan Zhang,Optimal design of fiber wave plate with a complex-tangent spun
rate profile, Optik International Journal for Light & Electron Optics, 2019, 179: 883-888 ★ Shi Zhi-Dong, Li Ming-Jia, Yin Jun, Lin Jian-Qiang, Optimal cladding
structure of holey fiber designed for broadband fiber-optic wave plate,Proc. of 20th International
Conference on Optical Fibre Sensors,
5~9 October 2009,
Edinburgh, Scotland,7503:75037I ★ SHI Zhi-Dong, LIN Jian-Qiang, BAO Huan-Huan , et al. Improved cutback method measuring beat-length for
high-birefringence optical fiber by fitting data of photoelectric signal, Proc. of
SPIE, 2007, Vol. 6622, 662216 ★ Zhi-Dong Shi, Min-Ning
Ji, Jian-Qiang Lin, et al. All fiber polarization controller of holey
birefringence fiber,Proc. of SPIE, 2007, Vol. 6781, ★ Zhi-Dong Shi, Min-Ning
Ji, Jian-Qiang Lin, et al. Theoretic analysis of mode-couple equation
in all-fiber polarization controller,Proc. of SPIE, 2007,
Vol. 6781, 67814J ★ Huan-Huan Bao, Zhi-Dong
Shi*, Jian-Qiang Lin, et al. Sensitivity of magneto-optic method for measuring
beat-length of high birefringence optical fiber,Proc. of SPIE, 2007, Vol. 6723, 672340 ★ Minning Ji, Zhidong Shi and Jianqiang Lin,Observation and Explanation of Bending Characteristics in Solid
Core Photonic Crystal Fibers,Microwave and Optical Technology Letters, 2008, 50(5): 1178~1180 ★ Minning Ji, Zhidong Shi,
and Qiang Guo,Mode characteristics of hollow core Bragg fiber,Chinese Optics Letters, 2005,3(3): 132~135 ★ 李铭佳, 石志东*, 殷俊,林建强, 陈华,双折射拍长对波长不敏感的多孔光纤结构设计,
光学学报, 2010,30(3): 665-670 ★ 李铭佳,石志东*,林建强,葛泉,矩形晶格双折射多孔光纤宽带稳定拍长的优化设计,光学学报, 2010,30(7): 1950-1954 ★ 石志东, 李中元,
王旭宇, 彗星环境中尘埃等离子体的电荷涨落和静电波动, 空间科学学报, 1997, 17(3): 206-211 ★ 石志东, 李中元, 空间尘埃等离子体中尘粒电荷的相关涨落对尘埃磁声波的影响, 空间科学学报, 1997, 17(4): 303-308 ★ 林建强, 石志东*, 李铭佳, 一种双折射拍长对波长不敏感的多孔光纤,2012.05,发明专利,CN 101702043 B ★ 石志东*, 王力辉,唐思思,一种具有优化转速变化因子的旋光纤四分之一波片,2017.02,发明专利,201710077784.1 |
Shi
Zhi-dong, Ph.D, Professor |
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Office: |
Room
T517, Building 14, East Campus, Shanghai University, No. 333, Nanchen Road,
Shanghai, P. R. China |
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Mail Address(Zip Code): |
Box 83, 99 Shangda Road, Shanghai University,
Shanghai (200444) |
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Phone: |
86-21-66138190 |
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Email: |
zdshi@shu.edu.cn |
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URL: |
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Biography: Shi Zhi-dong
received B.S. degree from Peking University in 1984, M.E. degree from
Institute of Plasma Physics, Chinese Academy of Sciences, in 1994, and Ph. D.
degree from University of Science and Technology of China in 1997. He is
currently a professor with School of Communication and Information
Engineering in Shanghai University since 1997. His Major research interests
are Optical Fiber Sensors, Optical Communications and Optoelectronics
Devices. More than 80 technical research papers have been published in
journals and conferences. Research Directions: Specialty Fiber Optics, Optical Fiber Sensors, Applied Optoelectronics, Ultrasonic Testing. Courses: Fundamental Electric and Electronic Circuits, Signal and System, Applied Optoelectronics. Funding/Projects: ◎ Research on bandwidth
and temperature disturbance of fiber-optic wave plate, National Natural
Science Foundation of China (69972026),
2000.01~2002.12 ◎ Fabricatin
and study on photonic crystal fiber with highly birefringence, National
Natural Science Foundation of China (60177026), 2002.01~2004.12 ◎ Polarization
transforming characteristics of birefringence holey fiber with variable
twisting rates, National Natural
Science Foundation of China (60777031),
2008.01~ 2010.12 ◎ Study on
fiber sensor of current or magnetic field based on magnet-optical crystal
fiber by interference of slow light-wave, National Natural Science Foundation of
China (61107075), 2012.01~2014.12 ◎ Topological
imaging of Ultrasonic Lamb wave inverse scattering, National Natural Science Foundation of
China (11674214), 2017.01~2020.12 Selected Publications: ★ Zhi-dong Shi, Experimental observation of
spectral transmittance of highly birefringent fibre with high spin rate,
Optics Communications, 1999, 171(1-3): 61-64 ★ Shi Zhi-dong, Ji Min-ning and Bao Huan-huan,
Polarization State Evolution in Fiber Polarization Controller Influenced by
Phase Difference, Chinese Physics Letters, 2007, 24(7): 1967~1970 ★ Lin, Jian-qiang, Shi, Zhi-dong*, Li, Ming-jia,
Chen, hua, Structural design for birefringent holey fiber
with a beat length insensitive to wavelength, Applied Optics,2009,48(25):
F55-F60 ( * Corresponding author) ★ Shi Zhi-dong, Li Zhong-yuan, Chen Yao, Disruption
of Charged Dust Grains in Cometary Plasma Environments,Chinese
Physics Letters, 1998, 15(2): 155-156 ★ Zhidong Shi,Shengnan Bi,Minning Ji,Lihui Wang, Performance
analysis for all-fiber polarization transformer with specific spun rate
profile,Optics Communications, June 2017, 392: 20-24 ★ Wang Lihui,Shi Zhidong*,Tang Sisi,Analysis on stability
of polarization- transforming performance of fiber wave plate,Optik
International Journal for Light & Electron Optics, 2018, 157:1249-1258 ★ Zhidong Shi, Sisi Tang, Haiyan Zhang,Optimal design
of fiber wave plate with a complex-tangent spun rate profile, Optik
International Journal for Light & Electron Optics, 2019, 179: 883-888 ★ Shi Zhi-dong, Li Ming-jia, Yin Jun, Lin
Jian-qiang, Optimal cladding structure of holey fiber designed for broadband
fiber-optic wave plate,Proc. of 20th International Conference on Optical
Fibre Sensors, 5~9 October 2009, Edinburgh,
Scotland,7503:75037I ★ Minning Ji, Zhidong Shi and Jianqiang Lin,Observation
and Explanation of Bending Characteristics in Solid Core Photonic Crystal
Fibers,Microwave and Optical Technology Letters, 2008,
50(5): 1178~1180 ★ Minning Ji,
Zhidong Shi, and Qiang Guo,Mode characteristics of hollow core Bragg fiber,Chinese
Optics Letters, 2005,3(3): 132~135 |