Title :
Long-Term Aging and Quick Stress Testing of 980-nm Single-Spatial Mode Lasers
Author :
Hempel, Martin ; Tomm, Jens W. ; Venables, David ; Rossin, Victor ; Zucker, Erik ; Elsaesser, Thomas
Author_Institution :
Max-Born-Inst. fur Nichtlineare Opt. und Kurzzeitspektroskopie, Berlin, Germany
Abstract :
Single-spatial mode lasers emitting at 980 nm are studied during continuous-wave long-term operation and ultra-high power short-term operation (stress-test) up to 13.5 W. We find that both tests eventually activate the same degradation mechanism, namely internal catastrophic optical damage. In the case of ultra-high power operation, we show that the mechanism that initializes this effect is a lateral widening of the optical mode, resulting in increased absorption outside the waveguide. Defects formed during long-term aging may eventually lead to the same effect. Stress testing allows for activation of several degradation mechanisms in a device one after the other and for distinguishing between mechanisms induced by aging and independent ones. Stress tests could pave the way toward more time-efficient testing, e.g., for comparison of different technology variants in development.
Keywords :
ageing; laser modes; optical testing; quantum well lasers; waveguide lasers; continuous-wave long-term operation; degradation mechanisms; internal catastrophic optical damage; long-term aging; optical mode lateral widening; power 13.5 W; quick stress testing; single-spatial mode lasers; time-efficient testing; ultrahigh power short-term operation; waveguide; wavelength 980 nm; Aging; Cameras; Cavity resonators; Degradation; Monitoring; Optical pulses; Temperature measurement; Reliability; Semiconductor device measurements; reliability; semiconductor device measurements; semiconductor diodes; semiconductor lasers;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2475605
