上海交通大学电子工程系导师教师师资介绍简介-樊昕昱

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樊昕昱教授
地址：上海市东川路800号电信群楼 5-108
电话：+86
邮箱： fan.xinyu@sjtu.edu.cn
研究中心：光纤通信技术研究所
个人主页：http://cip.sjtu.edu.cn/www/index.php/teacher/

个人简介
樊昕昱现为上海交通大学电子工程系长聘教授，博士生导师。2000年于上海交通大学应用物理系本科毕业，2003年上海交通大学应用物理系获硕士学位，2006年于日本东京大学电气工学专业获博士学位。2006年加入日本电信电话株式会社（NTT）研究所，任研究员（终身职），2011年升任研究主任。2012年归国，任上海交通大学研究员，2019年升任长聘教授。研究方向为光纤传感、特种光纤、光纤器件与系统、光信息处理。
共发表学术论文一百余篇，在国际会议上做主旨报告及特邀报告二十余次，受Springer Nature邀请出版综述章节”Distributed Rayleigh Sensing”。主持及参与国家重点研发计划、国家自然科学基金委项目、上海市浦江人才计划、上海市科技创新行动计划高新技术领域项目等二十余项。担任Chin. Opt. Lett.杂志编委、中国激光杂志社青年编委，多次担任国际光电子和光通信学术会议的TPC主席/共主席/委员，科技部/基金委/教育部/上海市科委各类项目及人才会评/函评专家。
现为美国电气和电子工程师协会（IEEE）及美国光学会（OSA）高级会员。长期担任Nature Communications、IEEE Journal of Quantum Electronics、IEEE/OSA Journal of Lightwave Technology、IEEE Photonics Technology Letters、OSA Optics Express、OSA Optics Letters等光电子学领域的国际期刊审稿人。
研究领域
1. 光纤传感 2. 光纤通信

3. 光学精密测量

研究方向

1. 分布式光纤传感技术
2. 光纤传感技术物理基础
3. 光纤线路及网络诊断技术
4. 全光采样和短脉冲激光
5.双光梳精密测量系统

获奖情况

1. 上海交通大学优博导师，汪帅博士论文“双光梳干涉仪及其应用研究”，2019年
2. ACP2019国际会议Best Student Paper Award，王彬博士，2019年

3. APOS2018国际会议Best Student Paper Award，张照鹏博士，2018年
4. APOS2018国际会议Best Student Paper Award，戴高宇硕士，2018年
5. 中国光纤传感学术会议优秀学术奖，汪帅博士，2017年
5.APOS2016国际会议Best Student Paper Award，汪帅博士，2016年

授课
1. 光纤通信概论，32学分，秋季
2. 数理方法，48学分，秋季

著作及专利
1. Xinyu Fan, “Distributed Rayleigh Sensing”,Book Chapter in “Handbook of optical fibers” (Springer Nature, 2018).
2. Xinyu Fan, GuangyaoYang, Shuai Wang, Qingwen Liu, and Zuyuan He, “Distributed Fiber-OpticVibration Sensing Based on Phase Extraction from Optical Reflectometry,”OSA/IEEE Journal of Lightwave Technology, Vol. 35, Issue 6, Aug. 2017 (Invitedpaper).
3. Bin Wang, Xinyu Fan*, Yuanxiu Fu, and Zuyuan He, “Dynamic strain measurement based on high-speed single-end-access Brillouin optical correlation domain analysis,” OSA/IEEE Journal of Lightwave Technology, Vol. 37, Issue 11, Nov. 2019 (Invited paper).

重要论文
 近五年重要期刊论文（第一作者/通信作者，2019年4月更新） 1. Bin Wang, XinyuFan*, Shuai Wang, and Zuyuan He, “Phase-dispersion spectroscopy with highspectral resolution using a wideband ultra-linearly swept optical source,”OSA/IEEE Journal of Lightwave Technology, 2019 (accepted) 2. Zhaopeng Zhang,Xinyu Fan*, Mengshi Wu, and Zuyuan He, “Phase-noise-compensated OFDR realizedusing hardware-adaptive algorithm for real-time processing,” OSA/IEEE Journalof Lightwave Technology, 2019 (accepted) 3. Bin Wang, XinyuFan*, Yuanxiu Fu, and Zuyuan He, “Dynamic strain measurements based onhigh-speed single-end-access Brillouin optical correlation domain analysis,”OSA/IEEE Journal of Lightwave Technology, 2019 (accepted) 4. Bin Wang, XinyuFan*, Yuanxiu Fu, and Zuyuan He, “Enhancement of strain/temperature measurementrange and spatial resolution in Brillouin optical correlation domain analysisbased on convexity extraction algorithm,” Vol. 7, pp.32128- 32136, IEEE Access,Mar. 2019 5. Bingxin Xu, XinyuFan*, Shuai Wang, and Zuyuan He, “Broadband and high-resolution electro-opticdual-comb interferometer with frequency agility,” Optics Express, Vol. 27, No.6, pp. 9266-9275, Mar. 2019 6. Shuai Wang, XinyuFan*, Bingxin Xu, and Zuyuan He, “Fast MHz spectral-resolution dual-combspectroscopy with electro-optic modulators,” Optics Letters, Vol. 44, No. 1,pp. 65-68, Jan. 2019. 7. Guangyao Yang, XinyuFan*, Bin Wang, and Zuyuan He, “Enhancing strain dynamic range ofslope-assisted BOTDA by manipulating Brillouin gain spectrum shape,” OpticsExpress, Vol. 26, No. 25, pp. 32599-32607, Dec 2018. 8. Shuai Wang, XinyuFan*, Binxing Xu, Bin Wang, Jingbing Du, and Zuyuan He, “Hybrid Dual-CombInterferometer with Easily Established Mutual Coherence and Very High RefreshRate,” Optics Letters, Vol. 43, No. 14, pp. 3441-3444, Jul. 2018 9. Mengshi Wu, XinyuFan*, Qingwen Liu, Zuyuan He, "Highly Sensitive Quasi-distributedFiber-optic Acoustic Sensing System by Interrogating a Weak ReflectorArray," Optics Letters, Vol. 43, No. 15, pp. 3594-3597, Jul. 2018 10. Bin Wang, XinyuFan*, Yuanxiu Fu, Zuyuan He, “Dynamic strain measurement with kHz-levelrepetition rate and centimeter-level spatial resolution based on Brillouin opticalcorrelation domain analysis, ” Optics Express, Vo. 26, No. 6, p.6916, March2018 11. Guangyao Yang, XinyuFan*, Qingwen Liu, Zuyuan He, “Frequency response enhancement ofdirect-detection phase-sensitive OTDR by using frequency division multiplexing,”OSA/IEEE Journal of Lightwave Technology, Vol. 36, No. 4, p.1197, February 2018 12. Shuai Wang, BingxinXu, Xinyu Fan*, Zuyuan He, “Linear optical samplingtechnique for simultaneouslycharacterizing WDM signals with a single receiving channel, ” Optics Express,Vol. 26, No. 2, : p. 2089, January 2018 13. Shuai Wang, XinyuFan*, and Zuyuan He, “Ultrahigh resolution optical reflectometry based onlinear optical sampling technique with digital dispersion compensation,” IEEEPhotonics Journal, Volume 9, Issue 6, p. **, December 2017 14. Bin Wang, XinyuFan*, Jiangbing Du, and Zuyuan He, “Performance enhancement of Brillouinoptical correlation domain analysis based on frequency chirp magnification,”Chinese Optics Letters, Vol. 15, No. 12, 120601, December 2017 15. Guangyao Yang, XinyuFan*, and Zuyuan He, “Strain dynamic range enlargement of slope-assisted BOTDAby using Brillouin phase-gain ratio,” IEEE Journal of Lightwave Technology,Volume 35, Issue 20, p. 4451, October 2017 16. Shuai Wang, XinyuFan*, Bingxin Xu, and Zuyuan He, “Dense electro-optic frequency comb generatedby two-stage modulation for dual-comb spectroscopy,” Optics Letters, Vol. 42,No. 19, p. 3984, October, 2017 17. Xinyu Fan*, GuangyaoYang, Shuai Wang, Qingwen Liu, and Zuyuan He, “Distributed Fiber-OpticVibration Sensing Based on Phase Extraction from Optical Reflectometry,”OSA/IEEE Journal of Lightwave Technology, Vol. 35, Issue 6, Aug. 2017 (Invitedpaper) 18. ShuaiWang, XinyuFan*, Bin Wang, Guangyao Yang, and Zuyuan He, “Sub-THz-range linearly chirpedsignals characterized using linear optical sampling technique to enablesub-millimeter resolution for optical sensing applications,” Optics Express,Vol. 25, Issue 9, pp. 10224-10233, May 2017 19. Bin Wang, XinyuFan*, Shuai Wang, Jiangbing Du, and Zuyuan He, “Millimeter-resolutionlong-range OFDR using ultra-linearly 100 GHz-swept optical source realized byinjection-locking technique and cascaded FWM process,” Optics Express, Vol. 25,Issue 4, pp. 3514-3524, Feb. 2017 20. Guangyao Yang, XinyuFan*, Shuai Wang, Bin Wang, Qingwen Liu, and Zuyuan He, “Long-Range DistributedVibration Sensing Based on Phase Extraction from Phase-Sensitive OTDR,” IEEEPhotonics Journal, Vol. 8, No. 3, pp. 1-12, June 2016 21. Bin Wang, XinyuFan*, Shuai Wang, Guangyao Yang, Qingwen Liu, and Zuyuan He, “Laser phase noisecompensation in long-range OFDR by using an optical fiber delay loop,” OpticsCommunications, 365: 220-224, April 2016 22. Shuai Wang, Xinyu Fan*, Qingwen Liu, and ZuyuanHe, “Distributed fiber-optic vibration sensing based on phase extraction fromtime-gated digital OFDR,” Optics Express, Vol. 23, No. 26, pp. 33301-33309,December 2015

上海交通大学电子工程系导师教师师资介绍简介-樊昕昱

本站小编 Free考研考试/2021-01-02

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