Title :
Physical basis for nondestructive tests of MOS radiation hardness
Author :
Scofield, John H. ; Fleetwood, D.M.
Author_Institution :
Dept. of Phys., Oberlin Coll., OH, USA
fDate :
12/1/1991 12:00:00 AM
Abstract :
It was found that the 1/f noise and channel resistance of unirradiated nMOS transistors from a single lot with various gate-oxide splits closely correlate with the oxide-trap and interface trap charge, respectively, following irradiation. The 1/f noise is explained by scattering from interface-trap precursor defects. It appears that both noise and channel mobility measurements may be useful in defining nondestructive hardness assurance test methods for devices fabricated from a single technology. It may be difficult to use either for making cross-technology comparisons. It was found that process techniques that improve the radiation hardness of MOS devices at room temperature can greatly reduce the 1/f noise of MOS devices at cryogenic temperatures
Keywords :
carrier mobility; electron device noise; gamma-ray effects; insulated gate field effect transistors; interface electron states; nondestructive testing; radiation hardening (electronics); random noise; semiconductor device testing; 1/f noise; MOS radiation hardness; channel mobility; channel resistance; cryogenic temperatures; gamma irradiation; gate-oxide splits; interface trap charge; interface-trap precursor defects; nMOS transistors; nondestructive hardness assurance test methods; nondestructive tests; oxide trap charge; room temperature; Current measurement; Educational institutions; MOS devices; MOSFETs; Noise level; Noise measurement; Nondestructive testing; Performance evaluation; Physics; Temperature measurement;
Journal_Title :
Nuclear Science, IEEE Transactions on
