[김대식교수/CSO] PRL 논문 게재
Local Capacitor Model for Plasmonic Electric Field Enhancement
We present a local capacitor model that enables a simple yet quantitatively accurate description of
lightning rod effect in nanoplasmonics. A notion of -zone capacitance is proposed and applied to predict the strongly induced electric field by a light source near nanoscale metal edges such as metal tip or metal gap. The enhancement factor, calculated from the local capacitor model, shows excellent agreement with more rigorous results. The -zone capacitor allows a blockwise treatment of nano-optical devices and constitutes a basic element of optical nanocircuits
We present a local capacitor model that enables a simple yet quantitatively accurate description of
lightning rod effect in nanoplasmonics. A notion of -zone capacitance is proposed and applied to predict the strongly induced electric field by a light source near nanoscale metal edges such as metal tip or metal gap. The enhancement factor, calculated from the local capacitor model, shows excellent agreement with more rigorous results. The -zone capacitor allows a blockwise treatment of nano-optical devices and constitutes a basic element of optical nanocircuits