Title :
Loss compensation in metal-loaded hybrid plasmonic waveguides using Yb3+ potassium double tungstate gain materials
Author :
García-Blanco, S.M. ; Sefunc, M.A. ; van Voorden, M.H. ; Pollnau, M.
Author_Institution :
MESA+ Inst. for Nanotechnol., Univ. of Twente, Enschede, Netherlands
Abstract :
The compensation of propagation losses of plasmonic nanowaveguides will constitute an important milestone towards the widespread use of these structures as enabling components for highly dense, fast, on-chip nanophotonic circuitry. Rare-earth doped double tungstate gain materials can not only provide elevated modal gain per unit length, but are capable of the amplification of very high rate signals, making them excellent potential candidates for such application. In this paper, a model that permits simulating plasmonic structures in rare-earth doped potassium double tungstates is described. The model is applied to study the achievable net gain in metal-loaded hybrid plasmonic waveguides with different structural parameters.
Keywords :
nanophotonics; optical waveguides; plasmonics; potassium compounds; tungsten compounds; ytterbium compounds; KY(WO4)2; Yb3+ potassium double tungstate gain materials; loss compensation; metal-loaded hybrid plasmonic waveguides; on-chip nanophotonic circuitry; plasmonic structure simulation; propagation losses; rare-earth doped double tungstate gain materials; Gain; Integrated optics; Materials; Optical waveguides; Plasmons; Propagation losses; Refractive index; double tungstates; integrated optics; plasmonic waveguides; rare-earth ions; rate-equations;
Conference_Titel :
Transparent Optical Networks (ICTON), 2012 14th International Conference on
Conference_Location :
Coventry
Print_ISBN :
978-1-4673-2228-7
Electronic_ISBN :
2161-2056
DOI :
10.1109/ICTON.2012.6254494
