Title :
Signal generation in a hydrogenerated amorphous silicon detector
Author :
Qureshi, S. ; Perez-Mendez, V. ; Kaplan, S.N. ; Fujieda, I. ; Cho, G. ; Street, R.A.
Author_Institution :
Lawrence Berkeley Lab., CA, USA
fDate :
2/1/1989 12:00:00 AM
Abstract :
The signals produced in thick hydrogenated amorphous silicon p-i-n detectors were measured using incident light pulses with different mean free paths. The signal shapes as a function of bias potential were analyzed in terms of the mobilities and mean free paths of the electrons and holes. The latter were measured by transient photoconductivity methods using a pulsed nitrogen-dye laser system. Measurements on relatively thick samples of a-Si:H show ionized dangling bond densities in the range of 6-70×1014 cm-3. While the electron mobility increases by ~20% at high field, hole mobility increases by ~40% from the low-field values. This increase in mobility is attributed to dispersion of the transport, but there may be a Poole-Frenkel effect involving the nondispersive electrons
Keywords :
Poole-Frenkel effect; amorphous semiconductors; carrier mobility; dangling bonds; elemental semiconductors; hydrogen; semiconductor counters; silicon; Poole-Frenkel effect; a-Si:H; bias potential; electron mobility; high field; hole mobility; incident light pulses; ionized dangling bond densities; low-field values; mean free paths; nondispersive electrons; p-i-n detectors; pulsed nitrogen-dye laser system; signal shapes; thick amorphous Si:H detectors; transient photoconductivity; Amorphous silicon; Detectors; Electron mobility; PIN photodiodes; Pulse measurements; Shape; Signal analysis; Signal detection; Signal generators; Thickness measurement;
Journal_Title :
Nuclear Science, IEEE Transactions on
