A novel plasmonic waveguide filter design based on three cascaded slot cavities is proposed. The cascaded nanocavities support a united resonant (UR) mode. Light is trapped in the middle nanocavity at telecom- muaic...A novel plasmonic waveguide filter design based on three cascaded slot cavities is proposed. The cascaded nanocavities support a united resonant (UR) mode. Light is trapped in the middle nanocavity at telecom- muaication wavelenEth (1550 rim) when the UR mode exists. This phenomenon leads to the efficient transmittance and high Q factor of the plasmonic filter. The resonant wavelength and Q factor can be easily modulated by the cavity radii and the waveguide width.展开更多
基金supported by the National Natural Science Foundation of China(No.61178004)the Research Fund for the Doctoral Program of Higher Education of China(No.20110031120005)+1 种基金Tianjin NaturalScience Foundation(Nos.12JCQNJC01100 and 13JC-QNJC01700)the Program for Changjiang Scholars and Innovative Research Team in Nankai University
文摘A novel plasmonic waveguide filter design based on three cascaded slot cavities is proposed. The cascaded nanocavities support a united resonant (UR) mode. Light is trapped in the middle nanocavity at telecom- muaication wavelenEth (1550 rim) when the UR mode exists. This phenomenon leads to the efficient transmittance and high Q factor of the plasmonic filter. The resonant wavelength and Q factor can be easily modulated by the cavity radii and the waveguide width.
