L01

主要成员

研究员 L01课题组组长

丁伟，男，1978年3月生

中国科学院物理研究所，光物理重点实验室， 副研究员

Email: wding@aphy.iphy.ac.cn

TEL: 010-82649340

https://www.researchgate.net/profile/Wei_Ding14

Jiafang Li

2007年英国巴斯大学物理系博士毕业，期间得到英国教育部海外研究奖学金全额资助。多年来从事与微纳光学波导线性/非线性效应有关的实验和理论工作，致力于光学器件的应用。研究领域包括微纳光纤、微结构光纤、硅波导光子学、表面等离基元波导和光学纳米天线等。已发表SCI论文三十余篇，H-index因子10，美国光学学会（OSA）优秀审稿人。

主要研究方向

基于微纳光纤的光子器件研究

1）拉锥光纤的微纳加工及器件应用
2）拉锥光纤的非线性效应增强及其在量子光学中的应用

表面等离激元光学器件和光子集成

1）表面等离激元纳米天线在光子集成回路中的应用
2）单壁碳纳米管器件的片上光电集成

空芯微结构光纤理论和实验

1）反谐振式空芯光纤理论模型
2）反谐振式空芯光纤制作及应用

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受教育经历

2003.10-2007.3，英国巴斯大学物理系CPPM中心，光学博士
1999.9-2002.7，北京大学电子学系，工学硕士
1995.9-1999.7，北京大学物理系，理学学士

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研究工作经历

2011.9至今，中国科学院物理研究所，光物理实验室，副研究员（中科院“引进国外杰出人才计划”）
2009.9-2011.9，英国巴斯大学，CPPM中心，博士后
2008.6-2009.9，法国特鲁厄技术大学，LNIO实验室，博士后
2007.4-2007.12，英国巴斯大学，CPPM中心，研究助理

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承担/参与科研项目

基于石英微纳光纤的二阶非线性光学效应增强及应用研究（NSFC面上，主持，至2019年底）
基于光纤拉锥波导的光子晶体微腔的制作和应用（NSFC面上，主持，至2016年底）
混合型微纳光子回路的设计、制作和应用（NSFC青年，主持，至2015年底）
相位可分辨近场/远场复合光学表征系统的研制（中科院科研装备研制项目，主持，至2015年底）
混合型微纳光子回路在模分复用光纤通信系统中的应用研究（区域光纤通信国家重点实验室开放课题，主持，至2016年底）
利用氢气的拉曼非线性效应产生4.4微米的新波长激光技术研究（北京市NSF面上，参与，至2016年底）

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发表论文（selected）

Y-Z. Sun, R. Bachelot, S. Blaize, Z-Y. Li, and W. Ding,* “Vector beam generation via micrometer-scale photonic integrated circuits and plasmonic nano-antennae”, Journal of the Optical Society of America B 33, 360 (2016)
A.V. Gorbach and W. Ding,* “Microfiber-lithium niobate on insulator hybrid waveguides for efficient and reconfigurable second-order optical nonlinearity on a chip”, Photonics 2, 946 (2015) (Special issue "Hybrid and Heterogeneous Technologies in Photonics Integrated Circuits").
W. Ding* and Y.Y. Wang, “Hybrid transmission bands and large birefringence in hollow-core anti-resonant fibers”, Optics Express 23, 21165 (2015)
Y.Y. Zhou, W. Ding, B.B. Gu, C. Zhao, X. Yu, and F. Luan,* “Power transfer mechanism of metallic grating coupled whispering gallery microsphere resonator”, Optics Letters 40, 1908 (2015).
W. Ding* and Y.Y. Wang, “Semi-analytical model for hollow-core anti-resonant fibers”, Frontiers in Physics 3:16 (2015) (Research topic "Modern trends in hollow core microstructured optical fibers").
W. Ding,* and Y.Y. Wang, “Analytic model for light guidance in single-wall hollow-core anti-resonant fibers”, Opt. Express 22, 27242 (2014).
J.F. Li, J.J. Mu, B.L. Wang, W. Ding, J. Liu, H.L. Guo, W.X. Li, C.Z. Gu, and Z.Y. Li, “Direct laser writing of symmetry-broken spiral tapers for polarization-insensitive three-dimensional plasmonic focusing”, Laser & Photonics Reviews 8, 602 (2014).
Y. Yu, W. Ding,* L. Gan, Z.Y. Li, Q. Luo, and S. Andrews, “Demonstration of broad photonic crystal stop band in a freely-suspended microfiber perforated by an array of rectangular holes”, Opt. Express 22, 2528 (2014).
W. Ding,* Y.H. Chen, and Z.Y. Li, “Unidirectional emissions from dielectric photonic circuits decorated with plasmonic phased antenna arrays”, Chinese Phys. B. 23, 037301 (2014).
Y.Y. Zhou, D. Zhu, X. Yu, W. Ding, and F. Luan, “Fano resonances in metallic grating coupled whispering gallery mode resonator”, Appl. Phys. Lett. 103, 151108 (2013).
W. Ding,* R.J. Liu, and Z.Y. Li, “Reducing radiation losses of one-dimensional photonic-crystal reflectors on a silica waveguide”, Opt. Express 20, 28641 (2012).
W. Ding,* O.K. Staines, G.D. Hobbs, A.V. Gorbach, C. de Nobriga, W.J. Wadsworth, J.C. Knight, D.V. Skryabin, M.J. Strain, M. Sorel, and R.M. De La Rue, “Modulational instability in a silicon-on-insulator directional coupler: role of the coupling-induced group velocity dispersion”, Opt. Lett. 37, 668 (2012).
W. Ding,* R. Bachelot, S. Kostcheev, P. Royer, and R. Espiau de Lamaestre, “Surface Plasmon resonances in silver Bowtie nano-antennas with varied bow angles”, Journal of Applied Physics 108, 124314 (2010).
W. Ding,* A.V. Gorbach, W.J. Wadsworth, J.C. Knight, D.V. Skryabin, M. Strain, M. Sorel, and R.M. De La Rue, “Time and frequency domain measurements of solitons in subwavelength silicon waveguides using a cross-correlation technique”, Opt. Express 18, 26625 (2010).
A.V. Gorbach, W. Ding,* O.K. Staines, C.E. de Nobriga, G.D. Hobbs, W.J. Wadsworth, J.C. Knight, D.V. Skryabin, A. Samarelli, M. Sorel, and R.M. De La Rue, “Spatiotemporal nonlinear optics in arrays of subwavelength waveguides”, Physical Review A 82, 041802(R) (2010).
W. Ding,* R. Bachelot, R. Espiau de Lamaestre, D. Macias, A.L. Baudrion, and P. Royer, “Understanding near/far-field engineering of optical dimer antennas through geometry modification”, Opt. Express 17, 21228 (2009).
S.L. Zhang, S.N. Wu, Y. Yan, T. Hu, J. Zhao, Y. Song, Q. Qu, W. Ding, “Study on the applied limitation of the micro-crystal modal for Raman spectra of nano-crystalline semiconductors”, Journal of Raman Spectroscopy 39, 1578 (2008).
W. Ding, C.J. Benton, A.V. Gorbach, W.J. Wadsworth, J.C. Knight, D.V. Skryabin, M. Gnan, M. Sorel, and R.M. De La Rue, “Solitons and spectral broadening in long silicon-on-insulator photonic wires”, Opt. Express 16, 3310 (2008).
W. Ding,* and S.R. Andrews, “Modal coupling in surface-corrugated long-period-grating fiber tapers”, Opt. Lett. 33, 717 (2008).
W. Ding,* S.R. Andrews, and S.A. Maier, “Surface corrugation Bragg gratings on optical fiber tapers created via plasma etch postprocessing”, Opt. Lett. 32, 2499 (2007).
W. Ding,* S.R. Andrews, and S.A. Maier, “Internal excitation and superfocusing of surface plasmon polaritons on a silver-coated optical fiber tip”, Physical Review A 75, 063822 (2007).
•X.H. Shi, W. Ding, and D.W.E. Allsopp, “Multiwavelength Transmission Microcavity in SOI Planar Ridge Waveguides”, Journal of Lightwave Technology 25, 2206 (2007).
W. Ding,* S.R. Andrews, T.A. Birks, and S.A. Maier, “Modal coupling in fiber tapers decorated with metallic surface gratings”, Opt. Lett. 31, 2556 (2006).
Y. Sonnefraud, N. Chevalier, J.F. Motte, S. Huant, P. Reiss, J. Bleuse, F. Chandezon, M.T. Burnett, W. Ding, and S.A. Maier, “Near-field optical imaging with a CdSe single nanocrystal-based active tip”, Optics Express 14, 10596 (2006).