肖力敏
光科学与工程系
职称：青年研究员、博导
职务：
电子邮件：liminxiao@fudan.edu.cn
办公地点：
电话：
课题组主页：





研究兴趣
学术任职
获奖情况
学习工作经历
授课情况
代表性论文或专著

全光纤光子器件与基于光纤的光流控应用，主要包括：
· 光子晶体光纤器件
· 先进光纤制造技术
· 基于光纤的光流控
· 光纤传感器
· 全光纤器件与激光技术




1. OSA高级会员，IEEE会员，SPIE会员
2. MDPI Sensors 2020-2021特刊客座编辑
3. ACP2020（北京）程序委员会委员
4. Springer Advanced Fiber Materials 2020-2021特刊客座编辑
5. POEM2019（武汉）程序委员会委员
6. IMCO2019（香港）组织委员会共主席
7. IMCO2019（香港）指导委员会委员
8. IMCO2019（香港）程序委员会委员
9. IMCO2019（香港）分会主席
10. CLEO-PR2018（香港）程序委员会委员
11. MDPI Micromachines2018-2019特刊客座编辑
12. IMCO2018（上海）程序委员会主席
13. IMCO2017（新加坡）分会主席
14. IMCO2016（北京）分会主席
15. Optics Letters, Optics Express, Optical Materials Express, Journal of Optical Society of America B, Journal of Optical Society of America A, Applied Optics, Journal of Biomedical Optics, Laser Physics Letters, IEEE Photonics Technology Letters, IEEE Journal of Quantum Electronics, IEEE Access, IEEE Journal of Lightwave Technology等国际期刊审稿人




1. 2019年复旦大学信息科学与工程学院院长奖
2. 2019年创新奖，由《Nature Communications》杂志社和国际光流控组织赞助
3. 2018年第46届日内瓦国际发明展金奖
4. 2013年青年科学家奖，由Lab-on-Chip赞助



教育经历
2004.11-2008.02 香港理工大学电机系 光纤光子学方向 哲学博士学位
2001.09-2004.07 清华大学精密仪器系 光学工程专业 硕士学位
1997.09-2001.07 武汉大学电子信息学院 测试技术与仪器专业 本科学位
工作经历
2015.06至今 复旦大学光科学与工程系 研究员（青年）
2011.02-2015.05 英国南安普顿大学光电子研究中心(ORC) Research Fellow
2008.02-2011.01 英国巴斯大学光子与光子材料中心(CPPM) Research Officer



本科：《诺贝尔奖与光学》
研究生：《激光研究专题报告》、《博士英语》




专著章节：
Ch.-L. Zhao, D. N. Wang, and L. M. Xiao, “Filling Technologies of Photonic Crystal Fibers and Their Applications,” Book Chapter in: Handbook of Optical Fibers, DOI: 10.1007/978-981-10-1477-2_13-1, Springer Singapore, Springer Nature Singapore Pte Ltd. 2018.
代表性期刊论文：
1. R. W. Yu, Y. X. Chen, L. L. Shui, and L. M. Xiao*, “Hollow-core photonic crystal fiber gas sensing,” Sensors 20, 2996 (2020).
2. C. Y. Yao, L. M. Xiao, S. F. Gao, Y. Y. Wang, P. Wang, R. F. Kan, W. Jin, and W. Ren*, “Sub-ppm CO detection in a sub-meter-long hollow-core negative curvature fiber using absorption spectroscopy at 2.3 μm,” Sensors and Actuators B: Chemical 303, 127238 (2020).
3. C. Y. Yao, Q. Wang, Y. C. Lin, W. Jin, L. M. Xiao, S. F. Gao, Y. Y. Wang, P. Wang, and W. Ren*, “Photothermal CO detection in a hollow-core negative curvature fiber,” Optics Letters 44, 4048-4051 (2019).
4. L. L. Li, and L. M. Xiao*, “Plasmonic nodeless hollow-core photonic crystal fibers for in-fiber polarizers,” IEEE/OSA Journal of Lightwave Technology 37, 5199-5210 (2019).
5. L. L. Li, and L. M. Xiao*, “Second-order vector mode propagation in hollow-core antiresonant fibers,” Micromachines 10, 381 (2019).
6. J. Y. Tan, R. W. Yu, and L. M. Xiao*, “Bessel-like beams generated via fiber-based polymer microtips,” Optics Letters 44, 1007-1010 (2019).
(Reported in the newsbreaks of Laser Focus World March 2019)
https://www.laserfocusworld.com/articles/print/volume-55/issue-03/newsbreaks/fiber-based-polymer-microtips-produce-bessel-like-beams.html
7. Y. C. Ye, L. M. Xiao*, S. H. Dong, and A. C. Peacock, “Analysis of coupling losses for all-fiber integration of subwavelength core hybrid optical fibers,” IEEE Photonics Journal 10, ** (2018).
8. Y. Hao, L. M. Xiao*, and F. Benabid, “Optimized design of unsymmetrical gap nodeless hollow core fibers for optofluidic applications,” IEEE/OSA Journal of Lightwave Technology 36, 3162-3168 (2018).
9. T. Qi*, Y. M. Jung, L. M. Xiao, J. Wang, S. L. Xiao, C. Lu, H. Y. Tam, and A. C. Peacock, “Programmable long-period grating in a liquid core optical fiber,” Optics Letters 41, 4763-4766 (2016).
10. F. H. Suhailin, L. Shen, N. Healy, L. M. Xiao, M. Jones, T. Hawkins, J. Ballato, U. J. Gibson, and A. C. Peacock*, “Tapered polysilicon core fibers for nonlinear photonics,” Optics Letters 41, 1360-1363 (2016).
11. L. M. Xiao^*, N. V. Wheeler, N. Healy, and A. C. Peacock, “Integrated hollow-core fibers for nonlinear optofluidic applications,” Optics Express 21, 28751-28757 (2013).
(Selected by Virtual Journal for Biomedical Optics, Jan 2014)
12. Z. G. Lian*, P. Horak, X. Feng, L. M. Xiao, K. Frampton, N. White, J. A. Tucknott, H. N. Rutt, D. N. Payne, W. Stewart, and W. H. Loh, “Nanomechanical Optical Fiber,” Optics Express 20, 29386-29394 (2012).
(Reported in the news of Research & Technology section of Photonics Spectra magazine, reported by Optics & Photonics news of Phys. Org, news release of OSA 2012 and Laser Focus World 2013, etc.)
http://www.laserfocusworld.com/articles/print/volume-49/issue-02/world-news/specialty-fibers--dual-c ore-fiber-has-nanomechanical-switching-p.html
http://www.photonics.com/Article.aspx?AID=52621
http://phys.org/news/2012-12-dynamic-dual-core-optical-fiber-routes.html
http://www.osa.org/about_osa/newsroom/newsreleases/2012/new_dynamic_dual-core_optical_fiber_enhances_data/
13. M. Pang, L. M. Xiao, W. Jin, and A. Cerqueira, “Birefringence of Hybrid-PCF and its responses to strain and temperature,” IEEE/OSA Journal of Lightwave Technology 30, 1422-1432 (2012).
14. M. D. W. Grogan, S. C. Heck, L. M. Xiao, R. England, S. A. Maier, and T. A. Birks*, “Control of nanoparticle aggregation in aerogel hosts,” Journal of Non-Crystalline Solids 358, 241-245 (2012).
15. L. M. Xiao^*, T. A. Birks, and W. H. Loh, “Hydrophobic photonic crystal fibers,” Optics Letters 36, 4662-4664 (2011).
16. L. M. Xiao, and T. A. Birks*, “Optofluidic microchannels in aerogel,” Optics Letters 36, 3275-3277 (2011).
(Selected by Virtual Journal of Nanoscale Science & Technology, September, 2011)
17. L. M. Xiao, and T. A. Birks*, “High finesse microfiber knot resonators made from double-ended tapered fibers,” Optics Letters 36,1098-1100 (2011).
18. L. M. Xiao, M. D. W. Grogan, W. J. Wadsworth, R. England, and T. A. Birks*, “Stable low-loss optical nanofibers embedded in hydrophobic aerogel,” Optics Express 19, 764-769 (2011).
19. L. M. Xiao^*, M. D. Grogan, S. G. Leon-Saval, R. Williams, R. England, W. J. Wadsworth, and T. A. Birks, “Tapered fibers embedded in silica aerogel,” Optics Letters 34, 2724-2726 (2009).
(Reported in Break News and included in Technology Review of 2009 of Laser Focus World)
http://www.laserfocusworld.com/articles/2009/10/silica-aerogel-holds-tapered-fibers-for-sensing.html
http://www.laserfocusworld.com/articles/print/volume-45/issue-12/features/technology-review-2009-accelerated-ingenuity.html
20. Z. Chen, C. Xiong, L. M. Xiao, W. J. Wadsworth, and T. A. Birks*, “More than threefold expansion of highly nonlinear photonic crystal fiber cores for low-loss fusion splicing,” Optics Letters 34, 2240-2242 (2009).
21. Y. L. Hoo*, W. Jin, L. M. Xiao, J. Ju, and H. L. Ho, “Numerical study of refractive index sensing based on the anti-guide property of a depressed-index core photonic crystal fiber,” Sensors and Actuators B-Chemical 136, 26-31(2009).
22. Y. Han, M. K. K. Oo, Y. N. Zhu, L. M. Xiao, M. S. Demokan, W. Jin, and H. Du, “Index-guiding liquid-core photonic crystal fiber for solution measurement using normal and surface-enhanced Raman Scattering,” Optical Engineering 47, 040502 (2008).
23. Y. P. Wang, W. Jin, J. Ju, H. F. Xuan, H. L. Ho, L. M. Xiao and D. N. Wang, “Long period gratings in air-core photonic bandgap fibers,” Optics Express, 16, 2784-2790 (2008).
24. C. L. Zhao*, L. M. Xiao, J. Ju, M. S. Demokan, and W. Jin, “Strain and temperature characteristics of a long period grating written in a photonic crystal fiber and its application as a temperature-insensitive strain sensor,” IEEE Journal of Lightwave Technology 26, 220-227 (2008).
25. L. M. Xiao^*, W. Jin, and M. S. Demokan, “Photonic crystal fibers confining light by both index-guiding and bandgap-guiding: Hybrid PCFs,” Optics Express 15, 15637-15647 (2007).
26. L. M. Xiao^*, M. S. Demokan, W. Jin, Y. P. Wang, and C. L. Zhao, “Fusion splicing photonic crystal fibers and conventional single mode fibers: micro-hole collapse effect,” IEEE Journal of Lightwave Technology 25, 3563-3574 (2007).
27. C. L. Zhao*, M. S. Demokan, W. Jin, and L. M. Xiao, “A cheap and practical FBG temperature sensor utilizing a long-period grating in a photonic crystal fiber,” Optics Communications 276, 242-245 (2007).
28. Y. P. Wang, L. M. Xiao, D. N. Wang, and W. Jin, “In-fiber polarizer based on long period fiber grating written on photonic crystal fiber,” Optics Letters 32,1035-1037 (2007).
(Reported in the news of Photonics Research section of Photonics Spectra magazine Jun 2007)
http://photonics.com/Article.aspx?AID=29823
29. L. M. Xiao^*, W. Jin, and M. S. Demokan, “Fusion splicing small-core photonic crystal fibers and single mode fibers by repeated arc discharges,” Optics Letters 32,115-117 (2007).
(Reported in the news of Technology World section of Photonics Spectra magazine Feb 2007)
http://photonics.com/Article.aspx?AID=28362
30. Y. P. Wang, L. M. Xiao, D. N. Wang, and W. Jin, “Highly sensitive long-period fiber-grating strain sensor with low temperature sensitivity,” Optics Letters 31, 3414-3416 (2006). (Reported in the news of Technology World section of Photonics Spectra magazine Jan 2007)
http://photonics.com/Article.aspx?AID=27747
31. L. M. Xiao^*, W. Jin, M. S. Demokan, H. L. Ho, H. Y. Tam, J. Ju, and J. M. Yu, “Photopolymer microtips for efficient light coupling between single-mode fibers and photonic crystal fibers,” Optics Letters 31, 1791-1793 (2006).
(Selected by Virtual Journal of Nanoscale Science & Technology, June 19, 2006)
32. L. M. Xiao^*, W. Jin, M. S. Demokan, H. L. Ho, Y. L. Hoo, and C. L. Zhao, “Fabrication of selective injection microstructured optical fibers with a conventional fusion splicer,” Optics Express 13, 9014-9022 (2005).
33. L. M. Xiao^*, P. Yan, M. L. Gong, W. L. Wei, and P. Ou, “An approximate analytic solution of strongly pumped Yb-doped double-clad fiber lasers without neglecting the scattering loss,” Optics Communications 230, 401-410 (2004).