Title :
Long-wavelength monolithic GaInNAs vertical-cavity optical amplifiers
Author :
Clark, Antony H. ; Calvez, Stephane ; Laurand, N. ; Macaluso, Roberto ; Sun, H.D. ; Dawson, M.D. ; Jouhti, Tomi ; Kontinnen, Janne ; Pessa, Markus
Author_Institution :
Inst. of Photonics, Univ. of Strathclyde, Glasgow, UK
fDate :
7/1/2004 12:00:00 AM
Abstract :
We report on the continuous-wave amplification characteristics of an optically pumped 1.3-μm multiple-quantum-well GaInNAs-GaAs vertical-cavity semiconductor optical amplifier (VCSOA). The VCSOA structure was monolithically grown by molecular beam epitaxy and operated in reflection mode in a fiber-coupled system. The maximum on-chip gain attained, limited by the onset of laser action, was 15.6 dB at 196 mW of 980-nm pump power. For a chip gain of 10.4 dB, the optical bandwidth was 10.8 GHz and the saturation output power was -9 dBm. By varying the pump laser power, a maximum extinction ratio of 22.3 dB was obtained. Temperature-controlled tuneable operation of the device is also presented and demonstration of 9 dB of chip gain obtained over 9.5 nm with an optical bandwidth of 12 GHz is reported.
Keywords :
III-V semiconductors; gallium arsenide; indium compounds; laser cavity resonators; laser tuning; molecular beam epitaxial growth; nitrogen compounds; quantum well lasers; semiconductor optical amplifiers; semiconductor quantum wells; surface emitting lasers; 1.3 mum; 10.4 dB; 10.8 GHz; 12 GHz; 15.6 dB; 196 mW; 9 dB; 980 nm; 980-nm pump power; GaInNAs-GaAs; continuous-wave amplification characteristics; extinction ratio; fiber-coupled system; long-wavelength monolithic GaInNAs vertical-cavity optical amplifiers; molecular beam epitaxy; monolithic growth; on-chip gain; optical bandwidth; optically pumped 1.3-μm multiple-quantum-well GaInNAs-GaAs vertical cavity semiconductor amplifiers; pump laser power; reflection mode operation; saturation output power; temperature tuneable operation; Fiber lasers; Laser tuning; Optical amplifiers; Optical pumping; Optical saturation; Power lasers; Pump lasers; Semiconductor optical amplifiers; Stimulated emission; Vertical cavity surface emitting lasers; GaAs; GaInNAs; optical pumping; optical switches; quantum-well devices; semiconductor optical amplifiers; vertical-cavity surface emitting lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2004.830201
