Title :
Factors determining the damage coefficients and the low-frequency noise in MeV proton-irradiated silicon diodes
Author :
Simoen, E. ; Claeys, C. ; Ohyama, H.
Author_Institution :
IMEC, Leuven, Belgium
fDate :
2/1/1998 12:00:00 AM
Abstract :
In this paper, the factors determining the reverse current and the recombination lifetime damage coefficients in high-energy proton-irradiated Si junction diodes are studied. These factors are: the particle energy, the crystal growth technique and corresponding starting material quality, and the substrate doping density and type. The observed macroscopic device degradation is discussed in view of the microscopic damage factor, the nonionizing energy loss (NIEL). Finally, the impact of proton irradiation on the low-frequency noise in forward operation is reported. Several experimental factors lead to the conclusion that the change in the flicker noise is related to the created ionization damage in the lateral oxide isolation at the periphery of the diode rather than to the bulk displacement damage.
Keywords :
crystal growth; flicker noise; proton effects; semiconductor device noise; semiconductor diodes; Si; Si junction diodes; bulk displacement damage; crystal growth technique; damage coefficients; flicker noise; forward operation; ionization damage; lateral oxide isolation; low-frequency noise; macroscopic device degradation; microscopic damage factor; nonionizing energy loss; particle energy; proton-irradiated; recombination lifetime damage coefficients; reverse current; substrate doping density; Crystalline materials; Degradation; Diodes; Doping; Energy loss; Lead compounds; Low-frequency noise; Microscopy; Protons; Silicon;
Journal_Title :
Nuclear Science, IEEE Transactions on
