Title :
Highly reliable high-power 980-nm pump laser
Author :
Guowen Yang ; Smith, G.M. ; Davis, M.K. ; Loeber, D.A.S. ; Hu, M. ; Chung-en Zah ; Bhat, R.
Author_Institution :
Corning Lasertron Inc., Bedford, MA, USA
Abstract :
We report on highly reliable, high-power, and high-performance 980-nm quantum-well laser chips and modules. Ridge waveguide laser diode chips with 750-mW output power and 500-mW fiber Bragg grating stabilized modules have been achieved and Telcordia-qualified. Long-term reliability tests show a very low failure rate of 400 FIT (failures in time) at 900-mA operating current or 500-mW module power. The kink-free fiber coupled module output power can be as high as 640 mW with grating stabilization, which produces very good wavelength stability and power stability. A further improved structure shows a record continuous-wave rollover chip power of 1.6 W for the 5-μm-wide ridge waveguide laser diodes.
Keywords :
Bragg gratings; laser reliability; optical fibre couplers; optical pumping; quantum well lasers; ridge waveguides; semiconductor device reliability; waveguide lasers; 1.6 W; 5 mum; 500 mW; 750 mW; 900 mA; 980 nm; Telecordia-qualified; coupled module output power; fiber Bragg grating; grating stabilization; high-power pump laser; highly reliable pump laser; kink-free fiber; laser diode chips; long-term reliability tests; quantum-well laser chips; quantum-well laser modules; ridge waveguide laser diode; stabilized modules; wavelength stability; Diode lasers; Fiber gratings; Fiber lasers; Laser excitation; Optical fiber testing; Power generation; Pump lasers; Quantum well lasers; Stability; Waveguide lasers;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2004.835188
