Title :
Low-loss GaAs/AlGaAs optical waveguides on InP substrates
Author :
Deri, R.J. ; Bhat, R. ; Harbison, J.P. ; Seto, M. ; Yi-Yan, A. ; Florez, L.T. ; Koza, M. ; Lo, Y.H.
Author_Institution :
Bellcore, Red Bank, NJ, USA
Abstract :
It is shown that the waveguide losses in lattice-mismatched GaAs-on-InP structures can be significantly reduced using an appropriate buffer layer. An AlGaAs buffer layer sequence was used for this purpose. A thin (400 nm) layer of Al/sub 0.7/Ga/sub 0.3/As, with an index below that of InP, was placed adjacent to the GaAs guiding layer both to maximize optical confinement in the guide and to increase the allowable guide dimensions for a single planar waveguide mode. Additional separation between guide and mismatched interface was achieved by inserting an Al/sub 0.5/Ga/sub 0.5/As layer with an index nearly equal to that of InP between the low-index buffer and InP. The final waveguide structure also included a thin (<40 nm) GaAs layer which was used to initiate growth and did not affect waveguide performance. Low losses (typically 3 dB/cm, with best results below 1 dB/cm) were achieved at a 1.52- mu m wavelength for samples grown by organometallic chemical vapor deposition.<>
Keywords :
III-V semiconductors; aluminium compounds; gallium arsenide; optical losses; optical waveguides; semiconductor growth; vapour phase epitaxial growth; 1.52 micron; Al/sub 0.7/Ga/sub 0.3/As; AlGaAs buffer layer sequence; GaAs guiding layer; GaAs-AlGaAs-InP; III-V semiconductors; InP substrates; guide dimensions; lattice-mismatched GaAs-on-InP structures; low loss optical waveguides; low-index buffer; mismatched interface; optical confinement; organometallic chemical vapor deposition; single planar waveguide mode; waveguide losses; wavelength; Buffer layers; Gallium arsenide; Indium phosphide; Molecular beam epitaxial growth; Optical buffering; Optical losses; Optical refraction; Optical scattering; Optical waveguides; Substrates;
Journal_Title :
Photonics Technology Letters, IEEE
