Title :
A Theoretical Analysis of Steady-State Charge Collection in Simple Diodes Under High-Injection Conditions
Author :
Edmonds, Larry D.
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
fDate :
4/1/2010 12:00:00 AM
Abstract :
A previous rigorous mathematical analysis of drift-diffusion equations was used to investigate collected charge in a simple reverse-biased p-n junction diode exposed to an ionization source that liberates carriers (electron-hole pairs) in a quasi-neutral region within the diode. Each of two simple models was found to agree with the more rigorous analysis when carrier liberation is sufficiently intense. One is the sensitive volume (SV) model, and the other was called ??ambipolar diffusion with a cutoff?? (ADC). The earlier rigorous analysis was worked out in detail only for a localized source, i.e., a point source of carrier liberation, so it was able to validate the applicability of each simple model only for that case. The present paper treats an arbitrary spatial distribution of carrier generation and concludes that the ADC model remains valid for this more general case, but the SV model does not.
Keywords :
carrier lifetime; carrier mobility; diffusion; p-n heterojunctions; semiconductor counters; semiconductor diodes; ambipolar diffusion with a cutoff model; arbitrary carrier generation distribution; carrier liberation point source; diode collected charge; diode quasineutral region; drift diffusion equations; electron-hole pair liberation; high injection conditions; intense carrier liberation; ionisation source; reverse biased p-n junction diode; sensitive volume model; simple diodes; steady state charge collection; ADC model; SV model; ambipolar diffusion; ambipolar diffusion with a cutoff; charge collection; charge-collection efficiency; drift-diffusion; sensitive volume;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2009.2038914
