Title :
Submicron 1xN Ultra Wideband MIM Plasmonic Power Splitters
Author :
Ayad, Marina A. ; Obayya, Salah S. A. ; Swillam, Mohamed A.
Author_Institution :
Dept. of Phys., American Univ. in Cairo, Cairo, Egypt
Abstract :
A novel design of a submicron power splitter is presented using plasmonics with the metal insulator metal (MIM) configuration. A simple analytical model is utilized to obtain good initial design. The final optimized design is obtained using finite-difference time domain based optimization. The proposed approach provides a simple and efficient methodology for designing 1xN power splitters using MIM configuration. The proposed power splitters are ultra wide band(~ 2 μm) with negligible imbalance. The approach is utilized to design up to 1 × 4, 1 × 8, and 1 × 16 integrated power splitters with submicron footprint, where all the optimized designs are validated.
Keywords :
MIM devices; finite difference time-domain analysis; optical beam splitters; optical design techniques; optimisation; plasmonics; finite-difference time domain based optimization; metal-insulator-metal configuration; optical design; simple analytical model; submicron ultrawideband MIM plasmonic power splitters; Impedance; Junctions; Optical waveguides; Optimization; Plasmons; Propagation losses; Reflection; Nanoplasmonics; optical circuits; photonic modelling; photonics optimization; power couplers and splitters;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2014.2312673
