Carrier trapping and recombination in avalanche diodes

Abstract

The differential equations describing an avalanching p+nn+junction in the presence of multiple-level carrier traps have been solved numerically for trap densities as high as two orders of magnitude greater than the n-region background doping. The results compare quantitatively with a number of past, as well as new, experimentally observed changes in avalanche microwave diode performance with neutron damage. In particular, trapped charge in the space-charge region tends to localize the avalanche region near the p+n junction, which raises the frequencies of operation. Carrier trapping at the edges of the space-charge region explains the increase in operating voltage and decrease in small-signal capacitance. The localization of the avalanche region, through carrier trapping in the space-charge region, and recombination effects at high avalanche current densities combine to cause eventual RF failure of IMPATT and TRAPATT diodes with neutron damage.