E. Schaub, New calibration procedure for absolute temperature measurement on electronic devices, by means of thermoreflectance technique, ANAL SCI, 17, 2001, pp. S503-S506
Temperature monitoring of electronic devices is essential, both to check co
mputing simulations and also to analyze the failure mechanisms. In this res
pect thermoreflectance is a very useful tool. But to get an absolute measur
ement, a calibration procedure is necessary. Due to the fact that the therm
oreflectance temperature coefficient depends both on the probed material an
d the experimental conditions, it should not been taken from the literature
, but rather determined in situ, on the probed sample itself. We propose he
re a new calibration procedure, based on the transient temperature response
analysis for large values of time. This method has been applied successful
ly on ridge high-power 980nm GaAs laser diodes. We could determine the temp
erature distribution on the front facet, in the vicinity of the laser emiss
ion spot, for an injected current lower and higher than the laser emission
threshold current.