WIAS Preprint No. 3242, (2025)
Drift-diffusion models with nonlinear boundary conditions modeling Schottky contacts at metal-semiconductor interfaces
Authors
- Glitzky, Annegret
ORCID: 0000-0003-1995-5491 - Liero, Matthias
ORCID: 0000-0002-0963-2915
2020 Mathematics Subject Classification
- 35K55 35B45 35B65 78A35 35Q81
Keywords
- Drift-diffusion system, charge transport, existence and uniqueness of weak solutions, regularity theory, Schottky contact, non-Boltzmann statistics
DOI
Abstract
The paper deals with drift-diffusion models for semiconductor heterostructures with Schottky contacts at all metal-semiconductor interfaces. Our analytical investigations allow for Boltzmann as well as Fermi--Dirac statistics for the charge-carrier densities. We verify the existence and boundedness of weak solutions of the instationary van Roosbroeck system in this context. Moreover, under additional assumptions the uniqueness and the higher regularity of the solution are demonstrated. Here, higher regularity results for scalar quasilinear parabolic PDEs are used.
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