Title :
Design optimization of monolithically integrated semiconductor spot-size converters for efficient laser-fiber coupling
Author :
Ladele, E.O. ; Rahman, B.M.A. ; Wongcharoen, T. ; Obayya, S.S.A. ; Grattan, K.T.V.
Author_Institution :
Sch. of Eng., City Univ., London, UK
Abstract :
When a photonic device is directly butt-coupled to a single mode fibre, often there is a power loss of 10 dB or greater, due to the highly unequal spot-sizes associated with each device. By using complex microlenses, the coupling efficiency may be increased at the expense of a resultant sub-micron alignment tolerance, which is very hard to achieve in reliable operation. Recently, monolithically integrated devices mostly using tapered structures, have been reported as useful to modify the spot-size of semiconductor photonic devices. In this work, spot-size converters with a tapered core, and also using novel uniform directional couplers and MMI structures are discussed and results reported. A rigorous numerical approach, based on the full vectorial finite element method, is used to design various types of monolithically integrated spot-size converters for efficient coupling to an optical fiber
Keywords :
finite element analysis; integrated optics; optical directional couplers; optical fibre couplers; rib waveguides; MMI structures; butt-coupled device; coupling efficiency; full vectorial finite element method; laser-fiber coupling; monolithic semiconductor spot-size converters; photonic device; power loss; single mode fibre; tapered core; uniform directional couplers; Design optimization; Directional couplers; Finite element methods; Lenses; Microoptics; Optical coupling; Optical design; Optical fiber devices; Optical fiber losses; Optical fibers;
Conference_Titel :
Electron Devices for Microwave and Optoelectronic Applications, 2001 International Symposium on
Conference_Location :
Vienna
Print_ISBN :
0-7803-7049-X
DOI :
10.1109/EDMO.2001.974324
