Title :
A Model for the Steady-State Photoconductance of an Abrupt p-n Junction Semiconductor Diode Assuming Flat Quasi-Fermi Levels
Author :
McIntosh, Keith R.
Author_Institution :
Centre for Sustainable Energy, Australian Nat. Univ., Canberra, ACT
Abstract :
A theoretical model for the steady-state photoconductance of an abrupt p-n junction semiconductor diode is presented. It assumes one-dimensional geometry and flat quasi-Fermi levels (QFLs) and involves a numerical integration over electrostatic potential. The flat-QFL model permits the determination of the excess carrier concentration in both quasi-neutral regions from a measurement of a semiconductor´s photoconductance, accounting for depletion-region modulation more accurately than its alternatives-particularly for thin samples and low-injection conditions. The model can be generalized to include variable carrier mobilities and to have different intrinsic carrier concentrations in n- and p-type layers
Keywords :
Fermi level; carrier density; carrier mobility; p-n junctions; photoconductivity; semiconductor device models; semiconductor diodes; abrupt p-n junction semiconductor diode; carrier lifetime; depletion-region modulation; electrostatic potential; excess carrier concentration; flat quasi-fermi levels; numerical integration; quasi-neutral regions; space-charge region; steady-state photoconductance; variable carrier mobilities; Charge carrier processes; Electrostatic measurements; Lighting; P-n junctions; Photoconducting devices; Photoconductivity; Radiative recombination; Semiconductor diodes; Steady-state; Transient analysis; Carrier lifetime; depletion region; depletion-region modulation (DRM); photoconductance; recombination; space-charge region;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.888719
