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唐明

作者: 时间:2017-03-18 点击数:

姓 名:唐明

职称:教授(楚天学者特聘教授、教育部新世纪人才)

专业方向:光通信与光网络系

个人简介:

职称

教授

学位

博士

职务

院长助理

所在院系

光学与电子信息学院

办公电话

027-87543355-3202

传真

027-87556188

E-mail

tangming@mail.hust.edu.cn

通信地址

武汉市洪山区珞喻路1037号华中科技大学南五楼322室

研究方向

光纤通信,光电器件

中文简介

唐明教授,博士,博士生导师,国际电子与电气工程师协会高级会员(Senior member of IEEE)。2001年于华中科技大学光电子工程系获得学士学位;2001年至2005年于新加坡南洋理工大学(NTU)电子与电气工程学院攻读博士课程并于2005年获得博士学位;2005年至2009年于新加坡南洋理工大学网络技术研究中心(NTRC)从事博士后研究;2009年2月至2011年2月加入日本理化学研究所(RIKEN)极端光子学研究项目组(Extreme Photonics Program)任特别研究员;2011年3月作为引进人才加入华中科技大学光学与电子信息学院。现任光学与电子信息学院院长助理,2012年获评为湖北省楚天学者特聘教授,2013年获得华中科技大学学术新人奖,同年入选教育部新世纪优秀人才支持计划,2014年入选华中学者特聘岗。目前唐明教授在华中科技大学光学与电子信息学院讲授两门本科生核心课程:《光纤光学》以及《通信原理》,指导博士与硕士研究生10余名。

唐明教授长期致力于高速光纤通信系统物理链路方面的研究,包括光信息的调制、放大、传输、处理与性能监测等。自任现职以来(2011年3月起)先后获得国家863计划主题项目以及国家自然科学基金重点项目等多项国家重大重点科技项目资助,在超高速光纤通信系统中非线性效应的抑制与应用、高效光学频率转换、可编程光纤功能模块与器件、基于新型复用技术的光通信系统等方面取得了一系列突出研究成果。目前已累计在Optics Letters、Optics Express、IEEE Photonics Technology Letters, IEEE Journal of Lightwave Technology等国际权威光学与光通信学术期刊及国际学术会议上发表论文100余篇,SCI数据库检索他引超过450次,H指数12。Google学术检索总引用数超过1000次。

唐明教授自2007年以来积极组织和参与国际学术交流活动。在本领域有影响力的学术会议如OECC2015和IEEE Photonics Conference(IPC)2015&2016担任技术委员会委员, 2015年OSA Topical会议Fiber based Technology and Application本地组委员会主席,以及Asia Communications and Photonics Conference 2016年本地分会组委会主席。申请人近年来先后12次受邀在国际学术会议上发表邀请报告,其中境外学术会议8次。

英文简介

Dr. Tang Ming, Professor, School of Optical and Electronic information, Wuhan National Laboratory for Optoelectronics (WNLO), Huazhong University of Science and Technology.

He obtained the degree of Bachelor of Engineering in Huazhong University of Science and Technology (HUST), Wuhan, China, 2001,and Doctor of Philosophy in Nanyang Technological University (NTU), Singapore, 2005, respectively.During his Ph.D study and postdoctoral research in Network Technology Research Centre (NTRC), NTU, he focused on the research areas including optical fiber amplifiers, high power fiber lasers, generation and propagation of ultra-fast, ultra-short light pulse, nonlinear fiber optics, all-optical signal processing and the design and optimization of high speed optical fiber communication systems. From Feb 2009,he waswith Tera-photonics group led by Professor Hiromasa Ito in RIKEN, Japan, as a research scientist conducting research on Terahertz-wave generation, detection and application using nonlinear optical technologies.Since Mar 2011, Dr. Tang joined school of Optoelectronics Science and Engineering, Wuhan National Lab for Optoelectronics (WNLO), Huazhong University of Science and Technology (HUST)as a professor. He has been the member of IEEE and member of LEOS (now IEEE Photonics Society) since 2001. He became the senior member of IEEE since 2011, and he is also a member of OSA. He has published more than 100technical papers in the international recognized journals and conferences, and he serves as the regular reviewer for the journals such as IEEE JQE, JLT, PTL and OSA publications.

After joining HUST, China since 2011, he has been awarded several key National R&D Projects of China as principle investigator, such as National High Technology Plan (863) of China, grant No. 2013AA013402, Funding 9.17 million RMB, and National Natural Science Foundation of China, grant No, 61331010, 2.85 million RMB, devoting on the R&D on high speed optical fiber communication and sensing system, both in fundamental theory and key technologies. He has been awarded the new century talent program of MOE of China.

研究方向

光纤光学,非线性光学,高速光纤通信,光纤激光和放大器以及太赫兹波科学与技术

承担科研/教学课题

序号

项目名称

项目性质及来源

合同

经费

批准年月

起止年月

本人排名

1

超高速率长距离光纤传输系统工程关键技术与测试方法研究(2013AA013402)

国家863计划主题项目

917万元

2012.12

2013年1月-2015年12月

1

2

高速相干光通信基础理论与关键技术研究,项目编号61331010

国家自然科学基金重点项目

285万元

2013年8月

2014年1月-2018年12月

1

3

基于可编程光纤激光器与有机非线性晶体的光纤太赫兹融合系统研究(61107087)

国家自然科学基金

30万元

2011.10

2012年1月-2014年12月

1

学术成就和学术兼职

国际电子与电气工程师协会高级会员(Senior Member of IEEE)

湖北省楚天学者特聘教授

日本理化学研究所访问科学家

教育部新世纪人才支持计划

Publications:

Papers:

International Journal Publications:

[1]. Peng Zhang, Ming Tang*, Feng Gao, Benpeng Zhu, Songnian Fu, Jun Ouyang, Perry Ping Shum, and Deming Liu, "Cascaded fiber-optic Fabry-Perot interferometers with Vernier effect for highly sensitive measurement of axial strain and magnetic field," Opt. Express 22, 19581-19588 (2014)

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-22-16-19581

[2]. Cheng, J.; Tang, M*.; Fu, S.; Shum, P.; Yu, D.; Wang, L.; Liu, D., "Relative Phase Noise Induced Phase Error and System Impairment in Pump Depletion/Non-depletion Regime," Lightwave Technology, Journal of , vol.PP, no.99, pp.1,1

doi: 10.1109/JLT.2014.2324015

URL: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6815633&isnumber=4357488

[3]. Jiadi Wu, Jingchi Cheng,Ming Tang*, Lei Deng, Fu Songnian, Perry Ping Shum, and Deming Liu, "Relative phase noise induced impairment in CO-OFDM optical communication system with distributed fiber Raman amplifier," Opt. Lett. 39, 2841-2844 (2014)

http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-39-10-2841

[4]. Zhiyong Zhao, Ming Tang*, Huiqi Liao, Guobin Ren, Songnian Fu, Fang Yang, Perry Ping Shum, and Deming Liu, "Programmable multi-wavelength filter with Mach–Zehnder interferometer embedded in ethanol filled photonic crystal fiber," Opt. Lett. 39, 2194-2197 (2014)

http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-39-7-2194

[5]. Hailiang Zhang, Ming Tang*, Yiwei Xie, Songnian Fu, Deming Liu, and Perry Ping Shum, "Programmable wavelength-tunable second-order optical temporal differentiator based on a linearly chirped fiber Bragg grating and a digital thermal controller," Opt. Lett. 39, 2004-2007 (2014)

http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-39-7-2004

[6]. Jingchi Cheng, Ming Tang*, Songnian Fu, Perry Ping Shum, Deming Liu, Meng Xiang, Zhenhua Feng, and Dawei Yu, "Relative phase noise estimation and mitigation in Raman amplified coherent optical communication system," Opt. Express 22, 1257-1266 (2014)

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-22-2-1257

[7]. Jun Shi, Ming Tang*, Songnian Fu, Ping Shum, and Deming Liu, "Modeling and Analysis of Fiber Bragg Grating Based Visible Pr $^{3+}$ -Doped Fiber Lasers," IEEE/OSA J. Lightwave Technol. 32, 27-34 (2014)

http://www.opticsinfobase.org/jlt/abstract.cfm?URI=jlt-32-1-27

[8]. Jingchi Cheng, Ming Tang*, Songnian Fu, Perry Ping Shum, and Deming Liu, "Relative phase noise induced impairment in M-ary phase-shift-keying coherent optical communication system using distributed fiber Raman amplifier," Opt. Lett. 38, 1055-1057 (2013)

http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-38-7-1055

[9]. Hui Dong, Ming Tang*, and Yandong Gong, "Noise properties of uniformly-rotating RRFP Stokes polarimeters," Opt. Express 21, 9674-9690 (2013)

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-21-8-9674

[10]. Hui Dong, Ming Tang*, and Yandong Gong, "Measurement errors induced by deformation of optical axes of achromatic waveplate retarders in RRFP Stokes polarimeters," Opt. Express 20, 26649-26666 (2012)

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-20-24-26649

[11]. Zhao Zhiyong, *Tang Ming, Fu Songnian, Liu Shuang, Wei Huifeng, Cheng Yu, Tong Weijun, Shum Perry Ping, Liu Deming, “All-solid multi-core fiber-based multipath Mach-Zehnder interferometer for temperature sensing,” Applied Physics B-Lasers and Optics, 112(4), pp 491-497, 2013.

[12]. H. Liao, *M. Tang, H. Zhang, Y. Xie, “Tunable and programmable fiber ring laser based on digital - controlled chirped fiber Bragg grating,” Frontiers of Optoelectronics, 6(4), pp 468-471, 2013.

[13]. Zhang Hailiang, *Tang Ming, Xie Yiwei, Liao Huiqi, Fu Songnian, Shum Perry Ping, Liu Deming, “Programmable all-fiber structured waveshaper based on linearly chirped fiber Bragg grating and digital thermal controller,” Applied Physics B-Lasers and Optics, 112(4), pp 479-484, 2013.

[14]. Yang Fang,Tang Ming,Li Borui,Fu Songnian,Liu Shuang,Wei Huifeng,Cheng Yu,Tong Weijun,Liu Deming. Design and Optimization of Multi-Core Fibers with Low Crosstalk and Large Effective Area[J]. Acta Optica Sinica, 2014, 34(1): 0106005

杨芳,唐明,李博睿,付松年,刘爽,韦会峰,成煜,童维军,刘德明. 低串扰大模场面积多芯光纤的设计与优化[J]. 光学学报, 2014, 34(1): 0106005

[15]. Zhang Hailiang,*Tang Ming, Xie Yiwei, Liao Huiqi, Qiu Tuo, Fu Songnian, Liu Duan, Shen Ping, Liu Deming, “可编程带宽波长独立可调光纤光栅滤波器,” Guangxue Xuebao/Acta Optica Sinica, 33(7), pp 1-7 2013.

[16]. Duan Liu; Songnian Fu; Ming Tang; Shum, P.; Deming Liu, "Comb Filter-Based Fiber-Optic Methane Sensor System With Mitigation of Cross Gas Sensitivity," Lightwave Technology, Journal of , vol.30, no.19, pp.3103,3109, Oct.1, 2012.

[17]. Songnian Fu, Ming Tang*, and Perry Shum, "Instantaneous microwave frequency measurement using optical carrier suppression based DC power monitoring," Opt. Express 19, 24712-24717 (2011)

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-19-24-24712

[18]. D. Liu, M. Tang, S. Fu, D. Liu, P. Shum, “A long-reach WDM passive optical network enabling broadcasting service with centralized light source,” Optics Communications, Volume 285, Issue 4, 15 February 2012, Pages 433-438, ISSN 0030-4018, http://dx.doi.org/10.1016/j.optcom.2011.10.015.

[19]. *Liu S.; Fu S; Tang M; Shum P; Liu D, “4 x 10 Gb s(-1) wavelength multicasting with tunable NRZ-to-RZ format conversion using nonlinear polarization rotation in an SOA” LASER PHYSICS, 23(8), 2013

[20]. M. Tang, H. Minamide, Y. Wang, T. Notake, S. Ohno, and H. Ito, "Tunable terahertz-wave generation from DAST crystal pumped by a monolithic dual-wavelength fiber laser," Opt. Express, vol. 19, pp. 779-786, 2011. http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-19-2-779

[21]. Ying Huang, Shum, P.P., Feng Luan, Ming Tang, "Raman-Assisted Wavelength Conversion in Chalcogenide Waveguides," Selected Topics in Quantum Electronics, IEEE Journal of , vol.18, no.2, pp.646,653, March-April 2012.

[22]. Ying Huang, Hongtao Zhou, Perry Ping Shum, Feng Luan, Songnian Fu, Ming Tang, and Eng Leong Tan, "Investigation and suppression of the pump-to-Stokes relative intensity noise transfer in chalcogenide waveguide Raman laser," Opt. Lett. 36, 2366-2368 (2011)

http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-36-12-2366

[23]. Y. Y. Wang, H. Minamide, M. Tang, T. Notake, and H. Ito, "Study of water concentration measurement in thin tissues with terahertz-wave parametric source," Optics Express, vol. 18, pp. 15504-15512, Jul 19 2010.

[24]. M. Tang, H. Minamide, Y. Y. Wang, T. Notake, S. Ohno, and H. Ito, "Dual-wavelength single-crystal double-pass KTP optical parametric oscillator and its application in terahertz wave generation," Optics Letters, vol. 35, pp. 1698-1700, May 15 2010. http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-35-10-1698

[25]. Y. Huang, P. Shum, F. Luan, and M. Tang, "Energy efficient chalcogenide waveguide Raman laser for optical interconnect," Opt. Express, vol. 18, pp. 24434-24440, 2010.

[26]. X. L. Tian, M. Tang, P. P. Shum, Y. D. Gong, C. L. Lin, S. N. Fu, and T. S. Zhang, "High-energy laser pulse with a submegahertz repetition rate from a passively mode-locked fiber laser," Optics Letters, vol. 34, pp. 1432-1434, May 1 2009. http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-34-9-1432

[27]. X. L. Tian, M. Tang, X. P. Cheng, P. P. Shum, Y. D. Gong, and C. L. Lin, "High-energy wave-breaking-free pulse from all-fiber mode-locked laser system," Optics Express, vol. 17, pp. 7222-7227, Apr 27 2009.

[28]. M. Tang, X. L. Tian, X. N. Lu, S. N. Fu, P. P. Shum, Z. R. Zhang, M. Liu, Y. Cheng, and J. Liu, "Single-frequency 1060 nm semiconductor-optical-amplifier-based fiber laser with 40 nm tuning range," Optics Letters, vol. 34, pp. 2204-2206, Jul 15 2009. http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-34-14-2204

[29]. M. Tang, S. N. Fu, and P. P. Shum, "Seamless generation and provisioning of broadcasting and independent services in WDM-PON access networks," Optics Express, vol. 17, pp. 9630-9636, Jun 8 2009. http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-17-12-9630

[30]. Z. Q. Luo, W. D. Zhong, M. Tang, Z. P. Cai, C. Ye, and X. S. Xiao, "Fiber-optic parametric amplifier and oscillator based on intracavity parametric pump technique," Optics Letters, vol. 34, pp. 214-216, Jan 15 2009.

[31]. S. N. Fu, W. D. Zhong, P. Shum, Y. J. Wen, and M. Tang, "Simultaneous Multichannel Photonic Up-Conversion Based on Nonlinear Polarization Rotation of an SOA for Radio-Over-Fiber Systems," IEEE Photonics Technology Letters, vol. 21, pp. 563-565, May-Jun 2009.

[32]. X. P. Cheng, P. Shum, M. Tang, and R. Wu, "Numerical analysis and characterization of fiber Bragg grating-based Q-switched ytterbium-doped double-clad fiber lasers," Optics and Lasers in Engineering, vol. 47, pp. 148-155, Jan 2009.

[33]. J. Q. Li, K. Xu, H. Huang, S. N. Fu, M. Tang, P. Shum, H. Wu, and J. T. Lin, "Simultaneous Implementation of All-Optical Microwave Bandpass Filtering and Up-Conversion for Radio-Over-Fiber Applications," IEEE/OSA Journal of Lightwave Technology, vol. 26, pp. 2202-2210, Jul-Aug 2008.

[34]. J. Q. Li, S. N. Fu, K. Xu, J. T. Wu, J. T. Lin, M. Tang, and P. Shum, "Photonic ultrawideband monocycle pulse generation using a single electro-optic modulator," Optics Letters, vol. 33, pp. 288-290, Feb 1 2008.

[35]. Y. Gao, L. Dou, A. Xu, P. Shum, and M. Tang, "Novel tunable microwave photonic notch filter using a 3 x 3 coupler based Sagnac loop," Optics Communications, vol. 281, pp. 1476-1479, Mar 15 2008.

[36]. S. N. Fu, W. D. Zhong, M. Tang, P. Shum, and X. Li, "All-optical NRZ-DPSK clock recovery using linearly chirped fiber Bragg grating induced clock tone," Optical Fiber Technology, vol. 14, pp. 222-226, Jul 2008.

[37]. X. P. Cheng, C. H. Tse, P. Shurn, R. F. Wu, M. Tang, W. C. Tan, and J. Zhang, "All-fiber Q-Switched erbium-doped fiber ring laser using phase-shifted fiber bragg grating," IEEE/OSA Journal of Lightwave Technology, vol. 26, pp. 945-951, Mar-Apr 2008.

[38]. X. P. Cheng, P. Shum, C. H. Tse, J. L. Zhou, M. Tang, W. C. Tan, R. F. Wu, and J. Zhang, "Single-longitudinal-mode erbium-doped fiber ring laser based on high finesse fiber Bragg grating Fabry-Perot etalon," IEEE Photonics Technology Letters, vol. 20, pp. 976-978, May-Jun 2008.

[39]. J. Li, K. Xu, S. Fu, J. Wu, J. T. Lin, M. Tang, and P. Shum, "Ultra-wideband pulse generation with flexible pulse shape and polarity control using a Sagnac-interferometer-based intensity modulator," Optics Express, vol. 15, pp. 18156-18161, Dec 24 2007.

[40]. H. Q. Lam, P. Shum, L. N. Binh, Y. D. Gong, and M. Tang, "Dual orthogonal polarization states in an active mode-locked birefringent fiber ring laser," IEEE Photonics Technology Letters, vol. 19, pp. 635-637, May-Jun 2007.

[41]. S. N. Fu, M. Tang, W. D. Zhong, Y. J. Wen, and P. Shum, "All-optical NRZ-DPSK clock recovery using chromatic-dispersion-induced clock tone," IEEE Photonics Technology Letters, vol. 19, pp. 925-927, May-Jun 2007.

[42]. X. P. Cheng, J. Zhang, P. Shum, M. Tang, and R. F. Wu, "Influence of sidelobes on fiber-bragg-grating-based Q-switched fiber laser," IEEE Photonics Technology Letters, vol. 19, pp. 1646-1648, Sep-Oct 2007.

[43]. X. Yu, P. Shum, M. Tang, M. Yan, and J. Love, "Numerical investigations of interstitial hole-assistant microstructured optical fiber," Journal of Optoelectronics and Advanced Materials, vol. 8, pp. 372-375, Feb 2006.

[44]. X. Yu, D. Liu, H. Dong, S. Fu, X. Dong, M. Tang, P. Shum, and N. Q. Ngo, "Temperature stability improvement of a multiwavelength Sagnac loop fiber laser using a high-birefringent photonic crystal fiber as a birefringent component," Optical Engineering, vol. 45, pp. -, Apr 2006.

[45]. M. Tang, X. L. Tian, P. Shum, S. N. Fu, H. Dong, and Y. D. Gong, "Four-wave mixing assisted self-stable 4x10 GHz actively mode-locked Erbium fiber ring laser," Optics Express, vol. 14, pp. 1726-1730, Mar 6 2006.

[46]. G. Ning, P. Shum, S. Aditya, D. Liu, Y. Gong, N. Q. Ngo, and M. Tang, "Multiwavelength Raman fiber lasers with equalized peak power using a sampled chirped fiber Bragg grating," Applied Physics B-Lasers and Optics, vol. 83, pp. 249-253, May 2006.

[47]. G. Ning, S. Aditya, P. Shum, Y. D. Gong, H. Dong, and M. Tang, "PMD effect on pulse shapes and power penalty in optical communication systems," Optics Communications, vol. 260, pp. 560-566, Apr 15 2006.

[48]. Y. D. Gong, X. L. Tian, M. Tang, P. Shum, M. Y. W. Chia, V. Paulose, J. Wu, and K. Xu, "Generation of dual wavelength ultrashort pulse outputs from a passive mode locked fiber ring laser," Optics Communications, vol. 265, pp. 628-631, Sep 15 2006.

[49]. M. Tang, Y. D. Gong, and P. Shum, "Broad-band tunable wavelength conversion using Raman-assisted parametric four-wave mixing in highly nonlinear fibers with double-pass geometry," IEEE Photonics Technology Letters, vol. 17, pp. 148-150, Jan 2005.

[50]. Y. D. Gong, M. Tang, P. Shum, C. Lu, J. Wu, and K. Xu, "Dual-wavelength 10-GHz actively mode-locked erbium fiber laser incorporating highly Nonlinear fibers," IEEE Photonics Technology Letters, vol. 17, pp. 2547-2549, Dec 2005.

[51]. M. Tang, Y. D. Gong, and P. Shum, "Dynamic properties of double-pass discrete Raman amplifier with FBG-based all-optical gain clamping techniques," IEEE Photonics Technology Letters, vol. 16, pp. 768-770, Mar 2004.

[52]. M. Tang, Y. D. Gong, and P. Shum, "Design of double-pass dispersion-compensated Raman amplifiers for improved efficiency: Guidelines and optimizations," IEEE/OSA Journal of Lightwave Technology, vol. 22, pp. 1899-1908, Aug 2004.

[53]. H. Ghafouri-Shiraz and M. Tang, "Interaction between ultrashort optical pulse and fibre gratings with random profile noise," IEE Proceedings-Optoelectronics, vol. 151, pp. 16-26, Feb 2004.

[54]. M. Tang, P. Shum, and Y. D. Gong, "Design of double-pass discrete Raman amplifier and the impairments induced by Rayleigh backscattering," Optics Express, vol. 11, pp. 1887-1893, Aug 11 2003.

[55]. M. Tangand H. Ghafouri-Shiraz, "Group-velocity matched-fiber Raman wavelength converter for the flexible optical communications network," Microwave and Optical Technology Letters, vol. 38, pp. 504-506, Sep 20, 2003.

International Conference Publications:

[1]. Tang Ming*, invited talk, “Measurement error and noise properties of RRFP Stokes Polarimeters,” International Conference on Optical Instrument & Technology (OIT), Nov 17-19, 2013, Beijing, China.

[2]. *Liu Duan; Tang Ming; Zhao Zhiyong; Fu Songnian; Liu Deming; Shum P, “A fiber-optic methane gas sensor system with improved accuracy using absorption-spectrum matched comb filter,” 22nd International Conference on Optical Fiber Sensors (OFS), 2012/10/15-2012/10/19, Beijing, PEOPLES R CHINA, 2012. Conference Paper, ISTP.

[3]. Shi Jun, Tang Ming*, Fu Songnian, Shum P, “Down-conversion Praseodymium Doped Fiber Laser: Modeling and Analysis,” 25th IEEE Photonics Conference (IPC), 2012/9/23-2012/9/27, pp 672-673, Burlingame, CA, 2012. Conference Paper, ISTP.

[4]. Shi Jun, Tang Ming*, Fu Songnian, Shum P, “Modeling and analysis of visible praseodymium doped fiber lasers,” 2012 17th Opto-Electronics and Communications Conference, OECC 2012, 2/7/2012-6/7/2012, pp 375-376, Busan, 2012, Poster Presentation

[5]. Tang Ming*, invited talk, “Convergence of fiber lasers and terahertz-wave for sensing and high speed wireless communication applications”, 8th Wireless and Optical Communication and Networks (WOCN), May 24-26, 2011, Paris, France.

[6]. Tang Ming*, invited talk, “Widely tunable millimeter-wave and terahertz-wave generation based on fiber technologies”, international Conference on Information Photonics and Optical communications (IPOC), Oct 21-23, Singapore, 2011.

[7]. Tang Ming*, invited talk, “Wavelength-agile dual-color fiber laser based ultra-wideband tunable monochromatic terahertz-wave generation” international Photonics and Optoelectronics Meetings (POEM), Nov 2-5, Wuhan China, 2011.

[8]. Tang Ming*, invited talk, “Convergence of fiber optics and MMW/Terahertz-wave technology for high-speed wireless communication applications” 10th international Conference on Optical communication and networks (ICOCN), Dec 5-7, Guangzhou, China, 2011.

[9]. Fu Songnian, *Tang Ming, Shum Perry, “Photonic Instantaneous Frequency Measurement Using Optical Carrier Suppression based DC Power Monitoring,” IEEE Photonics Conference (PHO), pp 85-86, Arlington, VA, 2011. Conference Paper, ISTP.

[10]. Y. Y. Wang, H. Minamide, M. Tang, T. Notake, K. Nawata, and H. Ito, "Measurement and imaging of water concentration in thin tissues with THz-wave," in The fifth workshop of the stimulated Brillouin scattering and phase conjugation (5th SBS&PC). Proc. 15p-F-15. Chiba University, Chiba, Japan, 2010.

[11]. Y. Y. Wang, H. Minamide, M. Tang, T. Notake, K. Nawata, and H. Ito, "An analysis of accuracy for water concentration measurement in thin biological tissues using THz-wave," in Annual meeting of Japanese Society of Applied Physics (JSAP), Autumn Sep, 2010. Proc. 15p-F-15. Nagasaki, Japan, 2010.

[12]. Y. Y. Wang, H. Minamide, M. Tang, T. Notake, and H. Ito, "An analytical study of water concentration measurement in tissues with THz-wave," in 35th international conference on infrared, millimeter and terahertz waves (IRMMW-THz). Proc. Tu-D1.4. Rome, 2010.

[13]. Y. Y. Wang, T. Ikari, M. Tang, T. Notake, H. Minamide, and H. Ito, "The study of water concentration measurement in tissues with Terahertz-wave parametric source," in Annual meeting of Japanese Society of Applied Physics (JSAP), Spring Mar, 2010. Proc. 19a-L-11. Kanagawa, Japan, 2010.

[14]. M. Tang, T. Notake, H. Minamide, Y. Y. Wang, and H. Ito, "Tunable narrow linewidth THz-wave generation using dual-wavelength fiber ring laser and organic DAST crystal," in 35th international conference on infrared, millimeter and terahertz waves (IRMMW-THz). Proc. We-C3.3. Rome, 2010.

[15]. M. Tang, H. Minamide, Y. Y. Wang, T. Notake, S. Ohno, and H. Ito, "Tunable Terahertz-wave generation using dual-phase matched single-KTP-based OPO and DAST crystals," in Annual meeting of Japanese Society of Applied Physics (JSAP), Spring Mar, 2010. Proc. 17p-M-5. Kanagawa, Japan, 2010.

[16]. M. Tang, H. Minamide, Y. Y. Wang, T. Notake, S. Ohno, and H. Ito, "Wideband tunable Terahertz-wave generation using dual-phase matched KTP-OPO and nonlinear organic DAST crystal," in Asia-pacific microwave photonics conference (APMP) 2010, invited paper. Proc. TB1-3. Hong Kong, 2010.

[17]. M. Tang, H. Minamide, Y. Y. Wang, T. Notake, and H. Ito, "Tunable Terahertz-wave generation using dual-wavelength fiber laser pumped DAST-DFG system " in Annual meeting of Japanese Society of Applied Physics (JSAP), Autumn Sep, 2010. Proc. 16a-F-5. Nagasaki, Japan, 2010.

[18]. M. Tang, H. Minamide, and H. Ito, "Frequency-agile THz-wave source using DAST crystal and its application," in Symposium of Outlook of Advacned Photonics Tokyo, Japan, 2010.

[19]. T. Notake, M. Tang, Y. Y. Wang, H. Minamide, H. Ito, K. Miyamoto, S. Ohno, T. Yokoe, and H. Hashimoto, "Optimization of DFG-THz radiation source by using an organic nonlinear crystal BNA," in Annual meeting of Japanese Society of Applied Physics (JSAP), Spring Mar, 2010. Proc. 19p-L-8. Kanagawa, Japan, 2010.

[20]. T. Notake, M. Saito, M. Tang, Y. Y. Wang, H. Minamide, and H. Ito, "Solution growth of an organic N-benzyl-2-methyl-4-nitroaniline (BNA) crystal for DFG-THz source," in 35th international conference on infrared, millimeter and terahertz waves (IRMMW-THz). Proc. Th-P86. Rome, 2010.

[21]. M. Tang, S. Ohno, A. Hamano, H. Minamide, T. Ishihara, and H. Ito, "Observation of sum-frequency-generation in a frequency-agile terahertz-wave source using DAST crystal," in Annual meeting of Japanese Society of Applied Physics (JSAP), Autumn Sep. 2009. Proc. 8p-M-9. Toyama, Japan, 2009.

[22]. T. Notake, K. Miyamoto, H. Minamide, M. Tang, S. Ohno, H. Ito, T. Yokoe, and H. Hashimoto, "Broadband and high efficiency BNA-DFG THz source pumped by dual-wavelength BBO-OPO," in Annual meeting of Japanese Society of Applied Physics (JSAP), Autumn Sep. 2009. Proc. 8p-M-8. Toyama, Japan, 2009.

[23]. J. Q. Zhou, H. Dong, S. Aditya, P. Shum, X. Li, S. Fu, and M. Tang, "Continuously tunable microwave photonic filter based on high-birefringence linearly chirped grating," in Proc. SPIE 7134, 71340Q (2008). Hangzhou, China, 2008.

[24]. M. Tang, W.-D. Zhong, S. Fu, P. Shum, and Y. J. Wen, "A broadcasting-enabled WDM-PON architecture based on subcarrier modulation techniques," in IEEE PhotonicsGlobal@Singapore, IPGC 2008 Singapore, 2008, pp. 1-4.

[25]. M. Tang, "Integration and implementation of broadcasting and P2P service in WDM-PON architecture," in Photonics and Optoelectronics Meetings (POEM) 2008, invited paper. Wuhan, China, 2008.

[26]. H. Q. Lam, P. Shum, L. N. Binh, Y. D. Gong, S. Fu, and M. Tang, "Electrically wavelength tunable active mode-locked fiber laser using a phase modulator as both mode locker and wavelength selector," in Optical Fiber communication/National Fiber Optic Engineers Conference, 2008. OFC/NFOEC 2008 Conference. JWA19. San Diego, CA . 2008.

[27]. H. Dong, P. Shum, M. Tang, and Y. Gong, "Measurement of First- to Fourth-Order Polarization Mode Dispersion in Optical Fibers," in Optical Fiber communication/National Fiber Optic Engineers Conference, 2008. OFC/NFOEC 2008. Conference. JWA12. San Diego, CA, 2008.

[28]. M. Tang, S. Fu, W. D. Zhong, P. Shum, and Y. J. Wen, "Chromatic dispersion induced PM-AM conversion and its application in the all-optical clock recovery of NRZ-DPSK signals," in Proc. SPIE 6783, 67832D. Wuhan, China, 2007.

[29]. X. Shao, P. Shum, L. Zhang, and M. Tang, "Impairment-aware network performance of 40Gbps, 16-λ IP/GMPLS over WDM system," in Proc. SPIE 6784, 67842F (2007) Wuhan, China, 2007.

[30]. Y. D. Gong, Y. Guo, P. Shum, J. Hu, H. Dong, S. N. Fu, M. Tang, X. L. Tian, H. Q. Lam, J. Z. Hao, O. L. C. Michael, J. H. Ng, and V. Paulose, "Investigation on optimized launch power in the distributed Brillouin fiber sensor design," in Proc. SPIE 6781, 67812I (2007). Wuhan, China, 2007.

[31]. Y. Gong, Y. Guo, O. L. C. Michael, G. X. Ning, J. Hu, P. Shum, H. Dong, M. Tang, S. N. Fu, G. B. Ren, and H. Q. Lam, "All-optical microwave photonic filters with Hi-Bi linearly chirped grating," in Proc. SPIE 6781, 67813F (2007). Wuhan, China, 2007.

[32]. S. Fu, M. Tang, W.-D. Zhong, Y. J. Wen, L. Xia, and P. Shum, "All-optical NRZ-DPSK Clock Recovery Using Chirped Fibre Bragg Grating (CFBG) Induced Clock Tone," in ECOC 2007 - 33rd European Conference and Exhibition of Optical Communication. vol. P059 Berlin, Germany, 2007.

[33]. H. Dong, M. Tang, P. Shum, and Y. Gong, "Theoretical Analysis and Primary Experimental Verification of Reflectometric Measurement of Polarization Mode Dispersion in an Optical Fiber Link with Polarization-Dependent Loss," in ECOC 2007 - 33rd European Conference and Exhibition of Optical Communication. Berlin, Germany, 2007.

[34]. X. P. Cheng, P. Shum, M. Tang, and J. Zhang, "Simulation and analysis of fiber Bragg grating-based Q-switched fiber laser with sidelobes' influence consideration," in Proc. SPIE 6781, 67810R. Wuhan, China 2007.

[35]. L. Xia, P. Shum, X. Yu, M. Tang, Y. Wang, and T. Cheng, "The design of ultranarrow dual-transmission-band optical FBG filter with controllable wavelength spacing," in Proc. SPIE 6351, 63511C (2006) Gwangju, South Korea, 2006.

[36]. W. Tong, D. Liu, M. Tang, Z. He, and J. Luo, "Investigation of low-loss and low-dispersion-slope highly nonlinear fibers and their application properties," in Proc. SPIE 6351, 63513L (2006) Gwangju, South Korea, 2006.

[37]. X. L. Tian, M. Tang, Y. D. Gong, and P. Shum, "Repetition rate switching in a passively mode-locked fibre laser," in Proc. SPIE 6351, 63513Z (2006) Gwangju, South Korea 2006.

[38]. M. Tang, P. Shum, Y. D. Gong, S. N. Fu, H. Dong, and X. L. Tian, "Highly nonlinear photonic crystal fiber stabilized 10 GHz dual-wavelength actively mode-locked fiber ring laser," in the 5th International Conference on Optical Communications and Networks, the 2nd International Symposium on Advances and Treads in Fiber Optics and Applications.(ICOCN/ATFO2006). paper ID: 1010164, Chengdu, China, 2006.

[39]. M. Tang, Y. D. Gong, P. Shum, and X. L. Tian, "10-GHz dual wavelength actively mode-locked fiber ring laser stabilized by HNL-PCF," in the 11th OptoElectronics and Communications Conference (OECC). Proc. 4P-18-1, Kaosiung, Taiwan, 2006.

[40]. P. Shum, M. Tang, X. Cheng, Y. Gong, S. Fu, and H. Dong, "Multi-wavelength mode-locked fiber laser," in Proc. SPIE 6351, 63511U (2006). invited paper, Gwangju, South Korea 2006.

[41]. P. Shum, X. Dong, M. Tang, S. Fu, H. Dong, Y. Gong, and X. Yang, "Nonlinearity enhanced fiber ring laser," in Proc. SPIE 6379, 637901 (2006). invited paper, Boston, MA, USA 2006.

[42]. M. Tang, X. Yu, Y. D. Gong, and P. Shum, "HNLF enhanced dual-wavelength fiber mode-locked laser at 10-GHz with 0.8 nm wavelength spacing," in Bragg Gratings, Poling & Photosensitivity / 30th Australian Conference on Optical Fibre Technology (BGPP/ACOFT). Sydney, Australia, 2005.

[43]. M. Tang, P. Shum, and Y. D. Gong, "The impact of RIN transfer on the optimization of bi-directional Raman pumped fiber transmission systems," in the 20th Congress of the International Commissions for Optics (ICO20). Changchun, China, 2005.

[44]. M. Tang, P. Shum, and Y. D. Gong, "All-optical signal processing based on significant parametric-Raman interactions in highly nonlinear fibers," in the Fourth International Conference in Optical Internet (COIN 2005). Chongqing, China, 2005.

[45]. M. Tang, P. Shum, and Y. D. Gong, "All-optical Raman amplifier with dynamic gain control for multiwavelength broadband optical metropolitan-area networks," in the IEEE Region 10 Infocom Colloquium on Broadband Access: Technology and Market. Singapore, 2004.

[46]. M. Tang, Y. D. Gong, and P. Shurn, "Wide range tunable wavelength conversion using parametric effects and Raman amplification in a double-pass system," in the 30th European Conference on Optical Communication (ECOC). We4.P.024, Stockholm, Sweden, 2004.

[47]. M. Tang, Y. D. Gong, and P. Shum, "Parametric-induced significant Raman gain improvement in highly nonlinear fibers with double-pass configuration," in the International Conference on Optical Communications and Networks (ICOCN). Hong Kong, 2004.

[48]. P. Shum, M. Tang, Y. Qian, and Y. D. Gong, "Analysis of supercontinuum generation in highly nonlinear fibers pumped by erbium fiber laser sources: observations and optimizations," in Proc. SPIE 5623, 392 (2005). Beijing, China, 2004.

[49]. Y. D. Gong, M. Tang, and P. Shum, "Supercontinuum generation in zero-dispersion region of highly nonlinear fibers using Erbium fiber laser source," in the International Conference on Optical Communications and Networks (ICOCN). Hong Kong, 2004.

[50]. M. Tang, Y. D. Gong, and P. Shum, "Effective shooting method with multistep algorithm for counterpumped wideband fiber Raman amplifier propagation equations in optical networks," in Proceeding of the second International Conference on Optical Communications & Networks (ICOCN), India, 2003.

[51]. M. Tang, Y. D. Gong, and P. Shum, "A novel double-pass discrete Raman ampflifier: theoretical and experimental investigation," in Proceeding of Conference on the optical internet / Australian conference on optical fiber Technology (COIN/ACOFT). Melbourne, Australia, 2003, pp. 365-368.

[52]. Y. D. Gong, P. Shum, M. Tang, D. Y. Tang, C. Lu, X. Guo, Q. Z. W., and F. Lin, "Observation of noise-like solitons," in Proc. SPIE 5280, 57 (2004). Wuhan, China, 2003.

Presentations:

在国际学术会议上受邀做特邀报告(invited talk)5次,其中于法国巴黎召开的第八届国际无线与光通信会议上受邀做主题报告(keynote speech);

1) Tang Ming*, 特邀报告invited talk,“Measurement error and noise properties of RRFP Stokes Polarimeters,” International Conference on Optical Instrument & Technology (OIT), Nov 17-19, 2013, Beijing, China.

2) Tang Ming*, 大会主题报告keynote speech,“Convergence of fiber lasers and terahertz-wave for sensing and high speed wireless communication applications”, 8th Wireless and Optical Communication and Networks (WOCN), May 24-26, 2011, Paris, France.

3) Tang Ming*, 特邀报告invited talk,“Widely tunable millimeter-wave and terahertz-wave generation based on fiber technologies”, international Conference on Information Photonics and Optical communications (IPOC), Oct 21-23, Singapore, 2011.

4) Tang Ming*, 特邀报告invited talk,“Wavelength-agile dual-color fiber laser based ultra-wideband tunable monochromatic terahertz-wave generation” international Photonics and Optoelectronics Meetings (POEM), Nov 2-5, Wuhan China, 2011.

5) Tang Ming*, 特邀报告invited talk,“Convergence of fiber optics and MMW/Terahertz-wave technology for high-speed wireless communication applications” 10th international Conference on Optical communication and networks (ICOCN), Dec 5-7, Guangzhou, China, 2011.

Course:

光纤光学

通信原理

Achievement:

唐明教授主要从事光纤波导中光场的调控以及线性与非线性问题等方面的研究工作,包括光纤中的偏振现象,受激散射与三阶非线性效应,并将其应用于高速光纤通信、光纤激光器、光纤传感与测量、以及光生太赫兹波等一系列领域。任现职以来(2011年3月起)先后主持国家863计划主题项目、国家自然科学基金重点项目等多项重大课题,在可编程光场调控新方法、高效光学频率转换、超高速光纤通信系统中非线性效应的抑制与应用等方面取得了一系列突出研究成果。累计在Optics Letters、Optics Express等国际权威期刊及国际学术会议上发表论文100余篇,他引超过300次。近五年来发表SCI收录第1作者及通讯作者论文16篇。其主要创新成果有:

一、关于超高速光纤通信中线性与非线性损伤的研究

唐明教授致力于研究超高速光纤通信系统特别是相干通信系统中各种光纤非线性效应对光信号相位噪声的影响,其首次发现的关于受激拉曼散射与交叉相位调制互作用导致的光场相位调控的最新研究成果成系列连续发表在国际顶级光学期刊Optics Letters和Optics Express上(Opt. Express22, 1257-1266, 2014;Opt. Lett. 38, 1055-1057, 2013),这是国际上首次对相关现象做出理论分析和报导,对当前非线性受限的超高速大容量光纤传输系统的设计和优化具备重要意义。法国勃艮第大学教授Christophe FINOT特意发信(参看附件)评价我们的工作是相位损伤研究领域极富贡献且值得引用的(Congratulation for this significant contribution !,,,your work that would have of course deserved citation)。唐明教授同时在通信用光纤中偏振态的随机演化与测量方面开展了大量卓有成效的工作,其关于高速偏振态检测和优化的工作最近连续发表在国际顶级光学期刊Optics Express上(vol.20, 26649-26666,2012,vol.21, 9674-9690,2013),为研究新型通信光纤偏振相关效应的检测技术与传输实验奠定了基础,为当前采用偏振复用的光传输系统提升容量指明了方向。正是由于在相关领域的一系列研究成果,唐明教授作为负责人牵头成功获得国家863计划主题项目(“超高速率长距离光纤传输系统工程关键技术与测试方法研究”,项目编号:2013AA013402,国拨经费917万元)以及国家自然科学基金重点项目(“高速相干光通信基础理论与关键技术研究”,项目编号:61331010,国拨经费285万元)资助,这些研究将为我国下一代超高速光纤通信系统的关键技术实现与模块应用打下坚实的基础。

二、基于非线性调控的光纤激光研究

唐明教授开展了非线性光纤光学中三阶超快参量过程与Raman放大的混合机理研究并依此开发出相位敏感超宽带光纤通信用波长转换器,并创新性的提出利用光纤色散与非线性相互平衡调控的理论实现了全光纤型大能量锁模激光脉冲输出,相关研究结果连续发表在国际顶级光学期刊Optics Express和Optics Letters上(Optics Letters, vol. 34, pp. 1432-1434, 2009 & Optics Letters, vol. 34, pp. 2204-2206, 2009),这些研究成果得到国际同行的多次引用。

三、可编程光学频率转换和数字化光场调控方面的研究

唐明教授在国际上首创全光纤双波长单纵模激光器结合有机非线性晶体得到频率连续可调的窄线宽太赫兹波。借助成熟的光通信行业提供的技术和器件,该系统成功的将光纤激光器和有机非线性晶体的优势结合起来,为构建新一代高效费比,高频谱精度的太赫兹应用系统提供了关键的光源。由于光纤融合太赫兹系统在实现太赫兹科学与技术实用化方面具有的重要意义,2010年唐明教授被推选为日本理化学研究所唯一的代表参加日本科学技术连携委员会在日本学术会议大讲堂举办的“先端光科学展望”大会陈述。这一技术方案衍生的系统构架也非常适合与泛在的光纤接入网融合。由于其开创的这一研究方向具有深刻的物理意义与潜在的重大应用前景,唐明教授2011年刚一回国即获得了国家自然科学基金委对该项课题的资助。在研究过程中,唐明教授开发出数字化可编程的可调光纤型滤波器及激光器(Opt. Express,vol. 19, 779-786, 2011),对光场受控激射与指定频率的高效转换具备重要意义。在此基础上,唐明教授进一步提出全光纤型可编程光学信息处理的概念,利用外场对光场的可编程精确调控实现了一系列数字化可编程的新型光纤功能器件并连续发表在顶级光学期刊上(Opt. Lett.39, 2194-2197; Opt. Lett. 39, 2004-2007, 2014),初步建立起了崭新的功能化光子集成光纤研究方向。

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