Title :
Plasmonic Infrared Bandstop Reflective Filter
Author :
Chih-Ming Wang ; Din Ping Tsai
Author_Institution :
Dept. of Opto-Electron. Eng., Nat. Dong Hwa Univ., Shoufeng, Taiwan
Abstract :
Various types of free-space plasmonic bandstop filters are reviewed. The plasmonic multilayer structure shows multiple localized surface plasmon (LSP) resonance modes with extraordinary high angle tolerance. Through modifying the plasmonic multilayer structure to a plasmonic T-shaped array, the multiple LSP modes can be suppressed. The filtering properties present a single resonance dip with a low sideband. Through modifying the plasmonic T-shaped array to be an asymmetric one, dual resonance modes can be easily designed. Finally, a nanoporous Au film is proposed to act as a bandstop filter. The fabrication processes are simple and the resonance dip can be manipulated by altering the annealing temperature.
Keywords :
annealing; band-stop filters; gold; metallic thin films; nanophotonics; nanoporous materials; optical arrays; optical design techniques; optical fabrication; optical filters; optical multilayers; plasmonics; reflectivity; surface plasmon resonance; Au; LSP resonance modes; annealing temperature; asymmetric array; dual resonance modes; extraordinary high angle tolerance; filtering properties; free-space plasmonic infrared bandstop reflective filter; localized surface plasmon resonance modes; nanoporous film; plasmonic T-shaped array; plasmonic multilayer structure; single resonance dip; Optical filter; plasmonics; porous Au film;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2012.2228256
