Title :
Determination of the electric field at interfaces in amorphous-silicon devices using time-of-flight measurements
Author :
Wentinck, Hendrik M. ; Crans, Willem
fDate :
12/1/1989 12:00:00 AM
Abstract :
The built-in electric field in hydrogenated amorphous silicon (a-Si:H) Mo-Schottky diodes is estimated using voltage transient measurements generated by a sophisticated time-of-flight or time-resolved photoconductivity experiment with a rather high time resolution of 1 ns. The actual determination of the electric field is done by inverse modeling. The simulator (forward model) for the voltage transient is based on the complete set of transport equations for the charge carriers, including surface recombination. The significance of the diffusion and surface recombination is clearly shown by comparing simulated and measured voltage transients
Keywords :
Schottky-barrier diodes; amorphous semiconductors; electric field measurement; elemental semiconductors; hydrogen; molybdenum; photoconductivity; semiconductor device testing; silicon; Schottky diodes; Si:H-Mo; amorphous semiconductor; charge carriers; diffusion; electric field; inverse modeling; simulator; surface recombination; time-of-flight measurements; time-resolved photoconductivity; transport equations; voltage transient; voltage transient measurements; Electric variables measurement; Electron mobility; Energy states; Laboratories; Photoconductivity; Radiative recombination; Regions; Schottky diodes; Time measurement; Voltage measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
