Title :
Modeling capture, emission, and impact ionization of deep-level traps for Ga-As semi-insulating substrates
Author :
Li, Qinming ; Dutton, R.W.
Author_Institution :
Stanford Univ., CA, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
A numerical model that self-consistently computes electron capture, emission, and impact ionization from deep-level traps (DLTs) is presented. A GaAs n-i-n structure with the i-region representing the semi-insulating (SI) GaAs substrate is simulated using the model. It is found that the threshold voltage (defined as the onset voltage at which the leakage current begins to rise rapidly) for substrate breakdown may be dramatically reduced by the impact ionization of DLT trapped electrons. The temperature dependence of the threshold voltage may also be explained by the impact ionization effect. The model can improve the prediction of current-voltage characteristics of a deep-level-trap compensated semi-insulating GaAs substrate under the conditions of electric field and varying temperature
Keywords :
III-V semiconductors; deep levels; electric breakdown of solids; electron traps; gallium arsenide; impact ionisation; leakage currents; semiconductor device models; substrates; Ga-As; GaAs substrates; current-voltage characteristics; deep-level traps; electron capture; impact ionization; leakage current; n-i-n structure; numerical model; semi-insulating substrates; semiinsulating substrate; temperature dependence; threshold voltage; Breakdown voltage; Computational modeling; Electron traps; Gallium arsenide; Impact ionization; Leakage current; Numerical models; Radioactive decay; Temperature dependence; Threshold voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
