Fuyong

Fuyong Yue

Post-Doc Fellow

fuyong.yue@emt.inrs.ca

Fuyong Yue  received his Master’s degree in 2014 from Beijing Institute of Technology in China, specializing in solid-state lasers and optical phase locked loop (OPLL). Then he won the James Watt Scholarship to pursue his PhD at Institute of Photonics and Quantum Sciences from Heriot-Watt University in Scotland, supervised by Prof. Xianzhong Chen. His PhD study was focused on the development of geometric metasurfaces to control phase and polarization of light in subwavelength scale for novel applications, such as polarization-controlled hologram generation, superposition of orbital angular momentum states, and structured beam generation. In October 2017, he obtained his PhD degree with thesis titled ‘Geometric Optical Metasurface for Polarization Control’, which was awarded one of the ‘EPS Postgraduate Research Thesis Prizes’ in Heriot-Watt University for 2017. In December 2017, he joined the Nonlinear Photonics Group at INRS-EMT in Canada, led by Prof. Roberto Morandotti. His current research focuses on plasmonics for quantum applications, linear and nonlinear metasurfaces, orbital angular momentum, and flat devices with novel functionalities.

  1. X. Zang, F. Dong, F. Yue, C. Zhang, L. Xu, Z. Song, M. Chen, P. Chen, G. Buller, Y. Zhu, S. Zhuang, W. Chu, S. Zhang, X. Chen, “Polarization Encoded Color Image Embedded in a Dielectric Metasurface,” Advanced Materials, (2018).
  2. F. Yue, C. Zhang, X. Zang, D. Wen, B. D. Gerardot, S. Zhang, X. Chen., “High-resolution grayscale image hidden in a laser beam,” Nature- Light: Science & Applications 7, 17129 (2018).
  3. F. Yue, D. Wen, C. Zhang, B. D. Gerardot, W. Wang, S. Zhang, X. Chen., “Multichannel Polarization-Controllable Superposition of Orbital Angular Momentum States,” Advanced Materials,  29 (2017).
  4. F. Yue, X. Zang, D. Wen, Z. Li, C. Zhang, H. Liu, B. D. Gerardot, W. Wang, G. Zheng, X. Chen, “Geometric phase generated optical illusion,” Scientific Reports 7, 11440 (2017)
  5. C. Zhang, F. Yue, D. Wen, M. Chen, Z. Zhang, W. Wang, and X. Chen, “Multi-channel metasurface for simultaneous control of holograms and twisted light beams,” ACS Photonics 4, 1906 (2017)
  6. F. Yue, D. Wen, J. Xin, B. G. Gerardot, J. Li, X. Chen, “Vector Vortex Beam Generation with a Single Plasmonic Metasurface,” ACS Photonics 3 1558 (2017).
  7. D. Wen, F. Yue, C. Zhang, X. Zang, H. Liu, W. Wang, X. Chen, “Geometric phase induced broadband optical rotation,” Applied Physics Letters, 111, 023102 (2017).
  8. D. Wen, F. Yue, M. Ardron, X. Chen, “Multifunctional metasurface lens for imaging and Fourier transform,” Scientific Report 6, 27628 (2016).
  9. D. Wen, S. Chen, F. Yue, K. Chan, M. Chen, M. Ardron, K. F. Li, P. W. H. Wong, K. W. Cheah, E. Y. B. Pun. and G. Li, S. Zhang, X. Chen, “Metasurface Device with Helicity-Dependent Functionality,” Advanced Optical Materials 4, 321 (2016).
  10. D. Wen, F. Yue, G. Li, G. Zheng, K. Chan, S. Chen, M. Chen, K. F. Li, P. W. H. Wong, K. W. Cheah, E. B. Pun, S. Zhang, X. Chen, “Helicity multiplexed broadband metasurface holograms,” Nature Communications 6 (2015).
  11. D.Wen, F. Yue, S. Kumar, Y. Ma, M. Chen, X. Ren, P. E. Kremer, B. D. Gerardot, M. R. Taghizadeh, G. S. Buller, X. Chen, “Metasurface for characterization of the polarization state of light,” Optics Express 23, 10272 (2015).X. Chen, M. Chen, M. Q. Mehmood, D. Wen, F. Yue, C. W. Qiu, S. Zhang, “Longitudinal multifocial metalens for circularly polarized light,” Advanced Optical Materials 3, 1201 (2015).
  12. L. Wang, C. Gao, M. Gao, Y. Li, F. Yue, J. Zhang, and D. Tang, “A resonantly-pumped tunable Q-switched Ho: YAG ceramic laser with diffraction-limit beam quality,” Optics Express 22, 254 (2014).
  13. L. Wang, C. Gao, M. Gao, Y. Li, F. Yue, L. Liu, “Single-frequency and dual-wavelength Ho: YAG nonplanar ring oscillator resonantly pumped by a Tm: YLF laser,” Optical Engineering 53, 061603 (2014).
  1. F. Yue, X. Chen, “Plasmonic Metasurface for Light Manipulation in Nanoscale,” The Graphene NOWNANO Summer Conference, Cheshire, UK, (2016)
  2. X. Chen, D. Wen, and F. Yue, “Unusual ultrathin optical devices: Metasurfaces make them practical”, PIERS, Shanghai, China (2016)
  3. Chen, D. Wen, F. Yue, G. Li, Zhang S., “Metasurface for helicity multiplexed broadband holograms, ” META’16, Malaga, Spain (2016)
  4. D. Wen, F. Yue, S. Kumar, G. Buller, and X. Chen, ”Polarization Measurement Method Based on Metasurface,” PIERS,Prague, Czech Republic (2015)