Existence of bounded discrete steady state solutions of the van Roosbroeck system with monotone Fermi–Dirac statistic functions

Abstract: If in the classic van Roosbroeck system (Bell Syst Tech J 29:560-607, 1950) the statistic function is modified, the equations can be derived by a variational formulation or just using a generalized Einstein relation. In both cases a dissipative generalization of the Scharfetter-Gummel scheme (IEEE Trans Electr Dev 16, 64-77, 1969), understood as a one-dimensional constant current approximation, is derived for strictly monotone coefficient functions in the elliptic operator ∇ • f (v)∇, v chemical potential, w… Show more

“…The integration limits are given by K = n K , K and L = n L , L and h KL denotes the Euclidean distance between two neighboring nodes K and L . The existence of a solution to (6) was proven by Gärtner (2015), even though the integral equation is in general not explicitly solvable. We refer to the solution of (6) as generalized Scharfetter-Gummel flux.…”

Assessing the quality of the excess chemical potential flux scheme for degenerate semiconductor device simulation

“…The integration limits are given by K = n K , K and L = n L , L and h KL denotes the Euclidean distance between two neighboring nodes K and L . The existence of a solution to (6) was proven by Gärtner (2015), even though the integral equation is in general not explicitly solvable. We refer to the solution of (6) as generalized Scharfetter-Gummel flux.…”

Assessing the quality of the excess chemical potential flux scheme for degenerate semiconductor device simulation

Numerical Simulation of Carrier Transport at Cryogenic Temperatures

A Weighted Hybridizable Discontinuous Galerkin Method for Drift-Diffusion Problems