DocumentCode
1134767
Title
Analysis of rapid degradation in high-power (AlGa)As laser diodes
Author
Fritz, William J.
Author_Institution
McDonnell Douglas Electron. Syst. Co., St. Louis, MO, USA
Volume
26
Issue
1
fYear
1990
fDate
1/1/1990 12:00:00 AM
Firstpage
68
Lastpage
74
Abstract
A multitemperature accelerated life test conducted to determine the lifetime and reliability of semiconductor lasers for long-term space applications is discussed. The primary cause of failure during two of these life tests (heat sink temperatures of -20°C and 50°C, respectively) was identified as carbon contamination on the front facet resulting in an initially rapid but saturable decrease in output power. The carbon contamination on the facet was the sole cause of the decrease in power for most of the laser diodes from the -20°C test. Removing the sources of carbon from the laser diodes eliminated the front facet degradation, and this resulted in increased laser diode lifetime in subsequent life tests. The index of refraction and the absorption coefficient of the contamination found on the laser diodes from the -20°C test were calculated. the resulting values compared favorably with those reported by other researchers for amorphous hydrogenated carbon
Keywords
III-V semiconductors; aluminium compounds; carbon; gallium arsenide; heat sinks; life testing; light absorption; optical testing; refractive index; semiconductor junction lasers; space research; (AlGa)As; -20 degC; 50 degC; C; absorption coefficient; amorphous hydrogenated carbon; carbon contamination; front facet; front facet degradation; heat sink temperatures; high power laser diodes; increased laser diode lifetime; laser lifetime; laser reliability; life test failure causes; long-term space applications; multitemperature accelerated life test; output power; rapid degradation; refractive index; saturable output power decrease; semiconductor lasers; Contamination; Degradation; Diode lasers; Heat sinks; Life estimation; Life testing; Semiconductor device reliability; Semiconductor device testing; Semiconductor lasers; Temperature;
fLanguage
English
Journal_Title
Quantum Electronics, IEEE Journal of
Publisher
ieee
ISSN
0018-9197
Type
jour
DOI
10.1109/3.44918
Filename
44918
Link To Document