Title :
Uncooled high-temperature (130/spl deg/C) operation of InGaAs-GaAs multiple quantum-well lasers at 20 Gb/s
Author :
K. Czotscher;E.C. Larkins;S. Weisser;W. Benz;J. Daleiden;J. Fleissner;M. Maier;J.D. Ralston;J. Rosenzweig
Author_Institution :
Fraunhofer-Inst. fur Angewandte Festkorperphys., Freiburg, Germany
Abstract :
Short-haul fiber-optic communication systems require high-speed semiconductor lasers that can operate uncooled over a wide temperature range. In this letter, we describe high-speed short-cavity InGaAs-GaAs multiple-quantum-well lasers operating at 1.1-/spl mu/m wavelength. The Fabry-Perot lasers were fabricated in a triple-mesa geometry suitable for on-wafer probing. With 3/spl times/200 /spl mu/m/sup 2/ ridge-waveguide lasers, which showed the best compromise between high-temperature and high-speed performance, a 3-dB modulation bandwidth of 14.5 GHz at 130/spl deg/C was achieved. Uncooled 20-Gb/s operation of these lasers is presented over a wide-temperature range from 25/spl deg/C to 130/spl deg/C without automatic power control.
Keywords :
"Quantum well lasers","Semiconductor lasers","Fiber lasers","Optical fiber communication","Temperature distribution","Quantum well devices","Fabry-Perot","Geometrical optics","Bandwidth","Power lasers"
Journal_Title :
IEEE Photonics Technology Letters
