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曾祥龙 研究员 |
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办公室: |
延长校区行健楼1016 |
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通信地址: |
上海市延长路149号160信箱 |
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邮政编码: |
200072 |
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电话: |
021-56333172 |
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电子邮件: |
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个人主页: |
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【个人简历】 曾祥龙,1977年9月出生。2004年4月毕业于上海交通大学物理系光学与光子学研究所,获得光学专业博士学位。2004年5月至2004年11月在华东师范大学精密光谱科学与技术国家重点实验室研究工作。自2004年11月任日本学术振兴学会(JSPS)的外国人特别研究员,在东京大学黑田-志村实验室进行为期两年的博士后研究工作。2007年2月进入上海大学通信学院工作,聘任为上海大学通信与信息工程学院副研究员,2010年7月破格聘为研究员。 荣誉奖励: 日本学术振兴学会(JSPS)外国人特别研究员、欧盟委员会第七研发框架计划“玛丽 居里”国际来访学者、上海市浦江学者人才计划获得者和上海大学优秀青年教师 【研究领域】 非线性光学及光纤技术;准位相匹配技术;飞秒脉冲压缩技术;特种光纤及其传感技术 【学术兼职】 多个国际学术期刊审稿人(Optics Letters, Optics Express, IEEE/OSA
Journal of Lightwave Technology, IEEE Photonics Technology Letters, Journal
of the Optical
Society of America B, Optics Communications等) 【科研项目】 近期承担的科研项目: 1.
基于级联二阶非线性效应的飞秒绝热孤子脉冲压缩研究(10704047),国家自然科学基金青年基金,主持 2.
基于非线性效应控制的周期量级飞秒掺镱光纤激光器研究(60978004),国家自然科学基金,主持 3.
基于级联二阶非线性效应的飞秒脉冲控制研究(08PJ14056),2008年上海市浦江学者人才计划,主持 4.
飞秒光纤激光器中级联非线性效应研究,2009年上海市教委科研创新基金,主持 【讲授课程】 1.《概率论与随机过程》本科课程; 2.《光电信息技术》本科课程; 【研究生培养】 已毕业研究生:王婧、王子杰 在读研究生:张倩武、贺超、詹祥、秦会政、胡俊高 【招生方向】 欢迎具有光电子学、光子学与光子技术、光通信与光传感、光学、光学工程以及通信专业背景的学生报考研究生 【代表性论著】 近期发表主要期刊论文: 1.
Fufei
Pang, Xiaolan Sun, Hairun Guo, Jiwen Yan, Jing Wang, Xianglong Zeng, Zhenyi
Chen, and Tingyun Wang, “A PbS quantum dots fiber amplifier excited by
evanescent wave,” Optics Express
18, 14024-14030 (2010) 2.
J. X. Wen, W. Y. Luo, Z. Y. Xiao, T. Y. Wang, Z. Y. Chen, and X. L. Zeng.
“Formation and
conversion of defect centers in low water peak single mode optical fiber
induced by gamma rays irradiation,” Journal
of Applied Physics 107, 044904 (2010) 3.
Zeng
XL, Ashihara S, Wang ZJ, Wang TY, Chen YP, Cha M. “Excitation of two-colored temporal solitons in
a segmented quasi-phase-matching structure.” Optics Express. 17(19): p. 16877-16884 (2009). 4.
Zeng XL, Guo HR, Chen N, Pang FF, Wang TY. “Proposal for second-harmonic generation based
on mode coupling in coaxial optical fiber.” IEEE Photonics Technology Letters. 21(7): p. 471-473 (2009). 5.
Wang TY, Zeng XL, Wen JX, Pang FF, Chen ZY. “Characteristics of photoluminescence and Raman
spectra of InP doped silica fiber.” Applied
Surface Science. 255(17): p. 7791-7793 (2009). 6.
Pang
FF, Liang WB, Xiang WC, Chen N, Zeng XL, Chen ZY, Wang TY. “Temperature-insensitivity bending sensor based
on cladding-mode resonance of special optical fiber.” IEEE Photonics Technology Letters. 21(1-4): p. 76-78 (2009). 7.
Zeng
XL, Ashihara S, Chen XF, Shimura T, Kuroda K. “Two-color pulse compression in
aperiodically-poled lithium niobate.” Optics
Communications. 281(17): p. 4499-4503 (2008). 8.
Lu WJ,
Chen YP, Miu LH, Chen XF, Xia YX, Zeng XL. “All-optical tunable group-velocity control of
femtosecond pulse by quadratic nonlinear cascading interactions.” Optics Express. 16(1): p. 355-361
(2008). 9.
Pang
FF, Xiang WC, Guo HR, Chen N, Zeng XL, Chen ZY, Wang TY. “Special optical fiber for temperature sensing
based on cladding-mode resonance.” Optics
Express. 16(17): p. 12967-12972 (2008). 10.Guo HR, Pang FF, Zeng XL,
Chen N, Chen ZY, Wang TY. “Temperature sensor using an optical fiber
coupler with a thin film.” Applied
Optics. 47(19): p. 3530-3534 (2008). 11.Pu SL, Geng T, Chen XF, Zeng XL, Liu M, Di ZY. “Tuning the band gap of self-assembled
superparamagnetic photonic crystals in colloidal magnetic fluids using
external magnetic fields.” Journal of
Magnetism and Magnetic Materials. 320(19): p. 2345-2349 (2008). 12.Pang FF, Zeng XL, Chen ZY,
Wang TY. “Fabrication
and characteristics of silica optical fiber doped with InP nano-semiconductor
material.” Optical and Quantum
Electronics. 39(12-13): p. 975-981 (2007). 13.Xianglong Zeng, S. Ashihara, N. Fujioka, T.
Shimura, and K. Kuroda, “Adiabatic compression of quadratic temporal solitons
in aperiodic quasi-phase matching gratings,” Optics Express 14, 9358-9370 (2006); 14.Yuping Chen, Rui Wu, Xianglong Zeng, Yuxing Xia
and Xianfeng Chen, “Type-I Quasi-phase-matched blue second harmonic
generation with different polarization in periodically poled LiNbO3,”
Optics and Laser Technology 38,
19-22 (2006); 15.Fei Wu, Xianfeng Chen, Xianglong Zeng, Yuping
Chen, and Yuxing Xia, “Generation of multiple-wavelength light sources for
optical communications in aperiodic optical superlattice,” Chinese Optics Letters 3, 708-711
(2005); 16.Xianfeng Chen, Fei Wu, Xianglong Zeng, Yuxing
Xia, Yingli Chen, “Multiple quasi-phase-matching in nonperiodic
domain-inverted optical superlattice,” Physics
Review A 69, 013818 (2004); 17.Xianglong Zeng, Xianfeng Chen, Yuping Chen,
Yuxing Xia and Yingli Chen, “Observation of all-optical wavelength conversion
based on cascaded effect in periodically poled lithium niobate waveguide,” Optics and Laser Technology 35,
187-190 (2003); 18.Xianfeng Chen, Xianglong Zeng, Yuxing Xia, and
Yingli Chen, “Optimal design of broadened flat bandpass electro-optic phase
modulator based on aperiodic domain-inverted grating,” Journal of Optics A: Pure and Applied Optics 5, 159-162 (2003); 19.Zeng Xianglong, Chen Xianfeng, Wu Fei, Chen
Yuping, Xia Yuxing, Chen Yingli, “Second-harmonic generation with broadened
flattop bandwidth in aperiodic domain-inverted gratings,” Optics Communications 204, 407-411
(2002); 20.Chen Yuping, Xianfeng Chen, Shengwu Xie,
Xianglong Zeng, Yuxing Xia, Yingli Chen, “Polarization dependence of
quasi-phase-matched second harmonic generation in bulk LiNbO3,” Journal of Optics A: Pure and Applied
Optics 4, 324-328 (2002); 21.Y. P Chen, X. F Chen, X. L Zeng, Y. X Xia, Y. L
Chen, “18 mW CW green light generation by first-order quasi-phase-matched
frequency doubling in bulk periodically poled LiNbO3,” ACTA OPTICA SINICA 22, 399-401 (2002); 22.Y. P Chen, X. F Chen, X. L Zeng, Y. X Xia, Y. L
Chen, “Green light generated by third-order quasi-phase-matched frequency
doubling in bulk periodically poled LiNbO3,” Chinese Journal of Laser B. 10, 68 -70 (2001). 会议论文: 1.
Chao
He, Xianglong Zeng, Fufei Pang, Tingyun Wang, “Switchable multi-wavelength fiber laser using
in-fiber mach-zehnder interferometer,” The 15th Optoelectronics and
Communications Conference (OECC), 7P-51 2.
Qianwu
Zhang, Xianglong Zeng, Tingyun Wang, “Tunable bandpass filter in chirped
quasi-phase-matched structure,” The 15th Optoelectronics and Communications
Conference (OECC), 8P-61 3.
Zeng
XL, Guo HR, Chen N, Pang FF, Wang TY, “Proposal for quasi-phase-matching conditions
for nonlinear frequency conversion in coaxial multi-layer fiber.” 2009 ICMAT,
Singapore (2009) 4.
X.
Zeng, Z. Wang, and T. Wang, "Soliton compression of femtosecond pulses
in two-segment quasi-phase-matching grating," in Asia Communications and
Photonics Conference and Exhibition, Technical Digest (CD) (Optical Society
of America, 2009), paper ThP3 5.
Zeng
Xianglong, Ashihara Satoshi, Chen Xianfeng, Shimura Tsutomu, Kuroda Kazuo. “Adiabatic compression of quadratic solitons and
frequency shift by using cascading nonlinearities.” 2007 AOE, p. 376-378. 6.
Zeng
Xianglong, Ashihara Satoshi, Shimura Tsutomu, Kuroda Kazuo. “Adiabatic femtosecond pulse compression and
control by using quadratic cascading nonlinearity.” 2008, SPIE 6839. 7.
Xianglong
Zeng, S. Ashihara, N. Fujioka, T. Shimura, and K. Kuroda, “Adiabatic soliton
compression of femtosecond pulses in chirped quasi-phase-matching gratings,”
Conference on Lasers and Electro-Optics,CLEO’06, U.S.A., paper JThC51 (2006); 8.
X.
Zeng, S. Ashihara, T. Shimura, K. Kuroda, “Adiabatic soliton compression in
engineered QPM structure,” 66th Applied Physics Conference, Japan. p1026
(2005); 9.
X.
Zeng, “Frequency shift based on cascaded second-order nonlinearity effect in
1.5um,” Meeting of Lightwave Synthesis (LWS), Japan, p20-25 (2004); 10.Zeng Xianglong, Chen Xianfeng, Xia Yuxing, Chen
Yingli, “Broadened travelling Wave modulation based on aperiodic
domain-inverted grating,” Proc. SPIE. 4906, 555-560 (2002); 11.Weijun Liao, Xianfeng Chen, Xianglong Zeng, Qu
Li, Yingli Chen, “Electro-optic modulator based on X-cut proton-exchanged
planar lithium niobate waveguide,” Proc. SPIE. 4904,147-153 (2002); 12.X. L Zeng, X. F Chen, Y. P Chen, “Theoretical
analysis of optimal all-optical converter based on periodically poled LiNbO3
waveguide,” Optical Fiber and Planar Waveguide Technology, Proc. SPIE. 4579,
107-110 (2001). 专利申请 1. 曾祥龙,王子杰,付兴虎,王廷云,基于两段准相位匹配晶体的飞秒脉冲压缩器,专利号:ZL200910048332.6,授权公告日:2010.09.15 2. 曾祥龙,郭海润,庞拂飞,陈振宜,王廷云. 基于同轴光纤的二次谐波产生器,申请号:200910050356.5,申请日:2009.04.30;公开号:CN101551570,公开日:2009.10.07 3. 陈娜,李承林,庞拂飞,曾祥龙,陈振宜,王廷云. 激光诱导间质热疗中分布温度实时测量系统及数据处理方法,申请号:200910050353.1,申请日:2009.04.30,公开号:CN101569523,公开日:2009.11.04 |
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Research Professor
Zeng Xianglong |
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Office: |
1016
Xingjian Building, Yanchang Campus, Shanghai University |
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Mail Address: |
160 Box, 149 Yanchang Rd, Shanghai 200072, People’s Republic
of China |
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Zip Code: |
200072 |
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Phone: |
86-21-56333172 |
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Email: |
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URL: |
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Education and Professional Experiences: l 07/1999 - 04/2004: Ph.D in Optics, l 09/1995 - 07/1999: Bachelor of
Science in Applied Physics, Brief
Introduction Dr. Xianglong Zeng has been involved in the research on nonlinear
optics and Quasi-Phase-Matching (QPM) applications. He concentrates his
research nucleus around the cascaded quadratic nonlinearity and studies its
applications from all-optical wavelength conversion to two-colored soliton
compression in QPM devices. He also presents good knowledge in optical fiber
and fiber lasers and contributes his efforts in the co-author’s papers.
Meanwhile, he started to manage his research program after his Ph.D and achieved
vital experience by being a Japan Society for the Promotion of Science (JSPS)
Postdoc in Professional Employments l 7/2010
– present, Research Professor, l 2/2007
– 7/2010, Associate Professor, l 11/2004 –2/2007, JSPS Postdoctoral Fellow, l 5/2004 – 11/2004, Research Assistant, l 11/2003 – 11/2003, Visiting Scientist, Philips Research Awards l Marie Curie International Fellowship,
European Commission FP7 l JSPS Postdoctoral Fellowship, Japan l Shanghai Pujiang Talented Scholarship, l Outstanding Young Teacher, Grants and Funding 1. “Few-cycle femtosecond Yb-fiber laser
based on nonlinearity control” by National Natural Science Foundation of
China, PI 2. “Research on femtosecond adiabatic soliton
compression based on cascaded quadratic nonlinearities” by National Natural
Science Foundation of China, PI 3. “Femtosecond pulse controlling based on
cascaded second-order nonlinear process” by the Shanghai Pujiang Project for
Talented Scholars, PI 4. “Soliton compression based on cascaded
nonlinear interactions ” by Scientific Research Foundation for the Returned
Overseas Chinese Scholars, State Education Ministry, PI 5.
“Femtosecond
pulse compression by using aperiodically engineered domain reversal crystal”
(2004.11-2006.12) by Japan Society for the Promotion of Science (JSPS)
Postdoctoral Fellowship (P04333).
Peer Refereeing Experience Optics Express;
Optics Communications; Journal of the Optical Society of Teaching Experience in Shanghai University l Introduction to
fibre communication system, winter 2007 l Photonics
Technology, spring 2008. l Probability Theory
and Stochastic Process, spring and fall 2008 l Supervise five
postgraduate students Publication Lists 1. Fufei Pang, Xiaolan Sun, Hairun Guo, Jiwen
Yan, Jing Wang, Xianglong Zeng, Zhenyi Chen, and Tingyun Wang, “A
PbS quantum dots fiber amplifier excited by evanescent wave,” Optics Express 18, 14024-14030 (2010) 2. J. X. Wen, W. Y. Luo,
Z. Y. Xiao, T. Y. Wang, Z. Y. Chen, and X. L. Zeng. “Formation and conversion of defect centers
in low water peak single mode optical fiber induced by gamma rays
irradiation,” Journal of Applied
Physics 107, 044904 (2010) 3. Zeng XL, Ashihara S, Wang ZJ, Wang TY, Chen
YP, Cha M. “Excitation
of two-colored temporal solitons in a segmented quasi-phase-matching
structure.” Optics Express. 17(19):
p. 16877-16884 (2009). 4. Zeng XL, Guo HR, Chen
N, Pang FF, Wang TY. “Proposal for second-harmonic generation
based on mode coupling in coaxial optical fiber.” IEEE Photonics Technology Letters. 21(7): p. 471-473 (2009). 5. Wang TY, Zeng XL, Wen
JX, Pang FF, Chen ZY. “Characteristics of photoluminescence and
Raman spectra of InP doped silica fiber.” Applied
Surface Science. 255(17): p. 7791-7793 (2009). 6. Pang FF, Liang WB, Xiang WC, Chen N, Zeng
XL, Chen ZY, Wang TY. “Temperature-insensitivity bending sensor
based on cladding-mode resonance of special optical fiber.” IEEE Photonics Technology Letters.
21(1-4): p. 76-78 (2009). 7. Zeng XL, Ashihara S, Chen XF, Shimura T,
Kuroda K. “Two-color
pulse compression in aperiodically-poled lithium niobate.” Optics Communications. 281(17): p.
4499-4503 (2008). 8. Lu WJ, Chen YP, Miu LH, Chen XF, Xia YX,
Zeng XL. “All-optical
tunable group-velocity control of femtosecond pulse by quadratic nonlinear
cascading interactions.” Optics Express.
16(1): p. 355-361 (2008). 9. Pang FF, Xiang WC, Guo HR, Chen N, Zeng
XL, Chen ZY, Wang TY. “Special optical fiber for temperature
sensing based on cladding-mode resonance.” Optics Express. 16(17): p. 12967-12972 (2008). 10. Guo HR, Pang FF, Zeng
XL, Chen N, Chen ZY, Wang TY. “Temperature sensor using an optical fiber
coupler with a thin film.” Applied
Optics. 47(19): p. 3530-3534 (2008). 11. Pu SL, Geng T, Chen XF, Zeng XL, Liu M, Di
ZY. “Tuning
the band gap of self-assembled superparamagnetic photonic crystals in
colloidal magnetic fluids using external magnetic fields.” Journal of Magnetism and Magnetic
Materials. 320(19): p. 2345-2349 (2008). 12. Pang FF, Zeng XL,
Chen ZY, Wang TY. “Fabrication and characteristics of silica
optical fiber doped with InP nano-semiconductor material.” Optical and Quantum Electronics.
39(12-13): p. 975-981 (2007). 13. Xianglong Zeng, S. Ashihara, 14. Yuping Chen, Rui Wu, Xianglong Zeng,
Yuxing Xia and Xianfeng Chen, “Type-I Quasi-phase-matched blue second
harmonic generation with different polarization in periodically poled LiNbO3,”
Optics and Laser Technology 38,
19-22 (2006); 15. Fei Wu, Xianfeng Chen, Xianglong Zeng,
Yuping Chen, and Yuxing Xia, “Generation of multiple-wavelength light sources
for optical communications in aperiodic optical superlattice,” Chinese Optics Letters 3, 708-711
(2005); 16. Xianfeng Chen, Fei Wu, Xianglong Zeng,
Yuxing Xia, Yingli Chen, “Multiple quasi-phase-matching in nonperiodic
domain-inverted optical superlattice,” Physics
Review A 69, 013818 (2004); 17. Xianglong Zeng, Xianfeng Chen, Yuping
Chen, Yuxing Xia and Yingli Chen, “Observation of all-optical wavelength
conversion based on cascaded effect in periodically poled lithium niobate
waveguide,” Optics and Laser Technology
35, 187-190 (2003); 18. Xianfeng Chen, Xianglong Zeng, Yuxing Xia,
and Yingli Chen, “Optimal design of broadened flat bandpass electro-optic
phase modulator based on aperiodic domain-inverted grating,” Journal of Optics A: Pure and Applied
Optics 5, 159-162 (2003); 19. Zeng Xianglong, Chen Xianfeng, Wu Fei,
Chen Yuping, Xia Yuxing, Chen Yingli, “Second-harmonic generation with
broadened flattop bandwidth in aperiodic domain-inverted gratings,” Optics Communications 204, 407-411
(2002); 20. Chen Yuping, Xianfeng Chen, Shengwu Xie,
Xianglong Zeng, Yuxing Xia, Yingli Chen, “Polarization dependence of
quasi-phase-matched second harmonic generation in bulk LiNbO3,” Journal of Optics A: Pure and Applied
Optics 4, 324-328 (2002); 21. Y. P Chen, X. F Chen, X. L Zeng, Y. X Xia,
Y. L Chen, “18 mW CW green light generation by first-order
quasi-phase-matched frequency doubling in bulk periodically poled LiNbO3,”
ACTA OPTICA SINICA 22, 399-401
(2002); 22. Y. P Chen, X. F Chen, X. L Zeng, Y. X Xia,
Y. L Chen, “Green light generated by third-order quasi-phase-matched
frequency doubling in bulk periodically poled LiNbO3,” Chinese Journal of Laser B. 10, 68 -70
(2001). Conference Contributions: 1. Chao He, Xianglong Zeng, Fufei Pang,
Tingyun Wang, “Switchable multi-wavelength fiber laser
using in-fiber mach-zehnder interferometer,” The 15th Optoelectronics and
Communications Conference (OECC), 7P-51 (2010) 2. Qianwu Zhang, Xianglong Zeng, Tingyun
Wang, “Tunable
bandpass filter in chirped quasi-phase-matched structure,” The 15th
Optoelectronics and Communications Conference (OECC), 8P-61 (2010) 3. Zeng XL, Guo HR, Chen N, Pang FF, Wang TY,
“Proposal
for quasi-phase-matching conditions for nonlinear frequency conversion in
coaxial multi-layer fiber.” 2009 ICMAT, 4. X. Zeng, Z. Wang, and T. Wang,
"Soliton compression of femtosecond pulses in two-segment
quasi-phase-matching grating," in Asia Communications and Photonics
Conference and Exhibition, Technical Digest (CD) (Optical Society of America,
2009), paper ThP3 5. Zeng Xianglong, Ashihara Satoshi, Chen
Xianfeng, Shimura Tsutomu, Kuroda Kazuo. “Adiabatic compression of quadratic
solitons and frequency shift by using cascading nonlinearities.” 2007 AOE, p.
376-378. 6. Zeng Xianglong, Ashihara Satoshi, Shimura
Tsutomu, Kuroda Kazuo. “Adiabatic femtosecond pulse compression
and control by using quadratic cascading nonlinearity.” 2008, SPIE 6839. 7. Xianglong Zeng, S. Ashihara, N. Fujioka,
T. Shimura, and K. Kuroda, “Adiabatic soliton compression of femtosecond
pulses in chirped quasi-phase-matching gratings,” Conference on Lasers and
Electro-Optics,CLEO’06, U.S.A., paper JThC51 (2006); 8. X. Zeng, S. Ashihara, T. Shimura, K.
Kuroda, “Adiabatic soliton compression in engineered QPM structure,” 66th
Applied Physics Conference, 9. X. Zeng, “Frequency shift based on
cascaded second-order nonlinearity effect in 1.5um,” Meeting of Lightwave
Synthesis (LWS), 10. Zeng Xianglong, Chen Xianfeng, Xia Yuxing,
Chen Yingli, “Broadened travelling Wave modulation based on aperiodic
domain-inverted grating,” Proc. SPIE. 4906, 555-560 (2002); 11. Weijun Liao, Xianfeng Chen, Xianglong
Zeng, Qu Li, Yingli Chen, “Electro-optic modulator based on X-cut
proton-exchanged planar lithium niobate waveguide,” Proc. SPIE. 4904,147-153
(2002); 12. X. L Zeng, X. F Chen, Y. P Chen,
“Theoretical analysis of optimal all-optical converter based on periodically
poled LiNbO3 waveguide,” Optical Fiber and Planar Waveguide
Technology, Proc. SPIE. 4579, 107-110 (2001). |