叶芳伟 教授
纳米光子学,非线性光学
物理楼 705A
86-21-54743167
fangweiye@sjtu.edu.cn
1、纳米光子学:纳米光子学研究纳米尺度上光和物质相互作用的新物理和新应用。研究方向:基于金属、石墨烯或者其他二维材料/结构的Surface Plasmonic Polaritons;具有拓扑绝缘特征的光学超材料(光学拓扑绝缘体);太赫兹波导。 2. 非线性光学: 非线性光学研究物质在激光作用下产生的非线性现象与应用。研究方向:纳米尺度上的非线性光学效应的增强和利用(非线性纳米光子学); 空间光孤子;超材料结构的光学响应的非线性调控。

2000年在浙江师范大学物理系获学士学位,2005年在中国科学技术大学物理系获博士学位。2005-2008在西班牙The Institute of Photonic Sciences(ICFO)从事博士后研究,2008-2010在香港浸会大学Centre for Nonlinear Studies(CNS)从事博士后研究。2010年年底加入上海交通大学物理与天文系,任特别研究员,博士生导师。

期刊论文
  1. F. Ye, D. Mihalache, B. Hu, N.-C. Panoiu, “Sub-wavelength plasmonic lattice solitons in arrays ofmetallic nanowires,” Phys. Rev. Lett.104, 106802(2010).
  2. F. Ye, Y. Kartashov, B. Hu, L. Torner,  “Twin-vortex solitons in nonlocal nonlinear media,”   Opt. Lett.35, 628-630(2010). [Highlighted in Nature Photonics 4, 197(2010)].
  3. Y. Xue,F. Ye, D. Mihalache, N. C. Panoiu,X. Chen,“Plasmonic lattice solitons beyond the coupled-mode theory”, Laser & Photonics Review 8, L52-L57(2014).
  4. C. Huang, X. Chen, Abiola O. Oladipo, Nicolae Panoiu,F. Ye,“Generation of subwavelength plasmonic nanovortices via helically corrugated metallic nanowires”, Scientific Reports  5, 13089 (2015).
  5. C. Huang, F. Ye,  Y. Kartashov, B. Malomed, X. Chen, "PT symmetry in optics beyond paraxial approximation," Opt.  Lett.39, 5443 (2014). [Top downloaded articles on diffraction and grating in Optics Letters].
  6. H. Deng, F. Ye,  B. Malomed, X. Chen, N. C. Panoiu, “Optically and electrically tunable Dirac points and Zitterbewegung in graphene-based photonic superlattices", Phys. Rev. B 91,201402 (Rapid Communication).
  7. C. Huang,F. Ye, X. Chen,“Mode pairs in PT-symmetric multimode waveguides”, Phys Rev A 90, 043833(2014).
  8.  X. Shi, X. Chen, B. Malomed, N. C. Panoiu, F. Ye, “Anderson localization at the subwavelength scale for surface plasmonic polaritons in disordered arrays of metallic nanowires”, Phys. Rev. B 89, 195428(2014).
  9.  C. Li, R. Cui,F. Ye,  Y. Kartashov, L. Torner, X. Chen, “Self-deflecting plasmonic lattice solitons and surface modes in chirped plasmonic arrays,”  Opt.  Lett. 40, 898 (2015).
  10.  H. Deng, X. Chen, B, Malomed, Nicolae Panoiu, and F. Ye, "Transverse Anderson localization of light near Dirac points of photonic nanostructures,"  Scientific Reports X, XXXXX (2015).

 

 

Book Chapter

  1.  F. Ye,  B. A. Malomed, D. Mihalache, L. Dong, B.Hu, “Elliptic vortices in self-attractive Bose-Einstein condensates,” chapter in book:“Bose-Einstein Condensates: Theory, Characteristics and Current Research,” pp115-123, Nova Publisher, Hauppauge, New York.
  2. Y. Chen, F. Ye, “Independently tunable multichannel filters based on fractal multilayers,” chapter in book:“Handbook on the Classification and Application of Fractals,” pp 235-244Nova Publisher, Hauppauge, New York(2012).
  3. Y. He, B. Malomed, F. Ye, J. Dong et al, “Transformation of optical beams into arrays of dissipative spatial solitons in material and virtual photonic-crystal structures,”  chapter in book: “Photonic crystals: Optical Properties, Fabrication and Applications,” pp109-130, Nova Publisher, Hauppauge, New York.
  4. F. Ye, D. Mihalache, N.-C. Panoiu, “Sub-wavelength plasmonic solitons in 1D and 2D arrays of coupled metallic nanowires,” chapter in book: “Spontaneous Symmetry Breaking, Self-Trapping, and Josephson Oscillations,”pp 357-375, Springer Publishers, Berlin, German.