Title :
Method of determining C-V profiles in semiconductor substrates and active layers
Author :
Holway, Lowell H., Jr.
Author_Institution :
Raytheon Co., Lexington, MA, USA
fDate :
4/1/1990 12:00:00 AM
Abstract :
A method for calculating C-V profiles by transforming the one-dimensional Poisson equation from a two-sided boundary value problem to an initial value problem is described. An analytic solution is used outside a reference plane deep in the substrate, and the rest of the solution is obtained by numerically integrating outward to the surface. This strategy speeds the calculation of quantities such as the carrier density and the apparent density that would be measured by a C-V profiler. For the same computation time, errors are smaller than those of Newton-Raphson methods because of the inherent speed and accuracy of the predictor-corrector algorithms used. By fitting Q-V pairs to a cubic spline, the C-V profiles are obtained efficiently with a moderate number of integrations. C-V profiles and threshold voltages can be calculated rapidly and accurately by this technique for a variety of semiconductor structures
Keywords :
carrier density; initial value problems; semiconductor device models; semiconductor technology; substrates; BVP; C-V profiles; active layers; carrier density; initial value problem; one-dimensional Poisson equation; predictor-corrector algorithms; semiconductor substrates; substrate-to-surface method; threshold voltages; two-sided boundary value problem; Accuracy; Boundary value problems; Charge carrier density; Density measurement; Newton method; Poisson equations; Prediction algorithms; Spline; Substrates; Velocity measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
