A compact tunable guided-mode resonant filter (GMRF) in the telecommunication region near the 1550 nm wave-length is proposed in this paper. Particle swarm optimization (PSO) is used to design the GMRF. The tunabi...A compact tunable guided-mode resonant filter (GMRF) in the telecommunication region near the 1550 nm wave-length is proposed in this paper. Particle swarm optimization (PSO) is used to design the GMRF. The tunability of the GMRF is achieved by an MEMS-based physical movement (in the horizontal or vertical direction) combined with an incident angle in a certain range. The results show that the resonant wavelength tuning of 110 nm (140mm) is obtained by horizontal movement of 168 nm (vertical movement of 435 nm) combined with an about 11° variation of incident angle.展开更多
基金Project supported by the National High-Tech Research and Development Program of China(Grant No.2011 AA050518)
文摘A compact tunable guided-mode resonant filter (GMRF) in the telecommunication region near the 1550 nm wave-length is proposed in this paper. Particle swarm optimization (PSO) is used to design the GMRF. The tunability of the GMRF is achieved by an MEMS-based physical movement (in the horizontal or vertical direction) combined with an incident angle in a certain range. The results show that the resonant wavelength tuning of 110 nm (140mm) is obtained by horizontal movement of 168 nm (vertical movement of 435 nm) combined with an about 11° variation of incident angle.
