Title :
Red VCSELs: More than 4 mW output power at 650 nm
Author :
Knigge, A. ; Zorn, M. ; Weyers, M. ; Tränkle, G.
Author_Institution :
Ferdinand-Braun-Inst. fur Hochstfrequenztechnik, Berlin, Germany
Abstract :
Due to the small bandgap discontinuities and the low thermal conductivity in the AlGaInP/AlGaAs material system the output power of red VCSELs is drastically reduced if the laser wavelength decreases and/or the operation temperature increases. Recently, our group reported the record cw output power of 3.2 mW for 650 nm oxide-confined VCSELs. For high output power and good temperature stability the epitaxial design and the processing have been improved. The epitaxial layer structure has been optimised with respect to doping, interface grading and number of distributed Bragg reflectors (DBR) pairs, on cavity design, number of quantum wells, and alignment of resonator and quantum well wavelength.
Keywords :
III-V semiconductors; aluminium compounds; distributed Bragg reflector lasers; gallium compounds; indium compounds; laser cavity resonators; laser transitions; quantum well lasers; surface emitting lasers; thermal conductivity; thermal stability; 4 mW; 650 nm; AlGaInP-AlGaAs; AlGaInP/AlGaAs; cavity design; cw output power; distributed Bragg reflectors; epitaxial design; epitaxial layer structure; good temperature stability; high output power; laser resonator; laser wavelength; low thermal conductivity; mW continuous wave output power; operation temperature; output power; oxide-confined VCSELs; quantum well lasers; quantum well wavelength; red emitting VCSELs; small bandgap discontinuities; vertical-cavity surface-emitting lasers; Conducting materials; Distributed Bragg reflectors; Optical materials; Photonic band gap; Power generation; Power lasers; Stability; Temperature; Thermal conductivity; Vertical cavity surface emitting lasers;
Conference_Titel :
All-Optical Networking: Existing and Emerging Architecture and Applications/Dynamic Enablers of Next-Generation Optical Communications Systems/Fast Optical Processing in Optical Transmission/VCSEL and
Print_ISBN :
0-7803-7378-2
DOI :
10.1109/LEOSST.2002.1027595
