Title :
Integration of high-gain and high-saturation-power active regions using quantum-well intermixing and offset-quantum-well regrowth
Author :
Skogen, E. ; Raring, J. ; DenBaars, S. ; Coldren, L.
Author_Institution :
Electr. & Comput. Eng. Dept., Univ. of California, Santa Barbara, CA, USA
Abstract :
A novel structure and method for fabricating regions of high and low modal gain on the same chip are reported, which enable diode lasers with maximum efficiency to be monolithically integrated with multiple-section semiconductor optical amplifiers having both high gain and high saturation power. This method uses quantum-well intermixing and an offset-quantum-well regrowth to achieve regions with high and low optical confinement. Fabry-Perot broad-area lasers were used to characterise the material in both regions.
Keywords :
Fabry-Perot resonators; MOCVD; etching; integrated optics; quantum well lasers; semiconductor growth; semiconductor optical amplifiers; Fabry-Perot broad area lasers; MOCVD; diode lasers; etching; high gain power active region; high saturation power active region; multiple section semiconductor optical amplifiers; offset quantum well regrowth; optical confinement; photonic integrated circuits; quantum well intermixing;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:20045232
