The van Roosbroeck system models current flows in (non-)degenerate semiconductor devices. Focusing on the stationary model, we compare the excess chemical potential discretization scheme, a flux approximation which is based on a modification of the drift term in the current densities, with another state-of-the-art Scharfetter-Gummel scheme, namely the diffusion-enhanced scheme. Physically, the diffusion-enhanced scheme can be interpreted as a flux approximation which modifies the thermal voltage. As a reference solution we consider an implicitly defined integral flux, using Blakemore statistics. The integral flux refers to the exact solution of a local two point boundary value problem for the continuous current density and can be interprete...
At cryogenic temperatures the electron-hole plasma in semiconductor materials becomes strongly degen...
Many challenges faced in today's semiconductor devices are related to self-heating phenomena. The op...
Electro-thermal transport phenomena in semiconductors are described by the non-isothermal drift-diff...
The van Roosbroeck system models current flows in (non-)degenerate semiconductor devices. Focusing o...
For a Voronoï finite volume discretization of the van Roosbroeck system with general charge carrier ...
We introduce a family of two point flux expressions for charge carrier transport described by d...
The van Roosbroeck system describes the semi-classical transport of free electrons and holes in a se...
We introduce a family of two point flux expressions for charge carrier transport described by drift-...
Electro-thermal transport phenomena in semiconductors are described by the non-isothermal drift-diff...
We analyze and benchmark the error and the convergence order of finite difference, finite-element as...
We present charge transport models for novel semiconductor devices which may include ionic species a...
We introduce a family of two point flux expressions for charge carrier transport described by drift–...
Many challenges faced in today's semiconductor devices are related to self-heating phenomena. The op...
Driven by applications like organic semiconductors there is an increased interest in numerical simul...
Driven by applications like organic semiconductors there is an increased interest in numerical simul...
At cryogenic temperatures the electron-hole plasma in semiconductor materials becomes strongly degen...
Many challenges faced in today's semiconductor devices are related to self-heating phenomena. The op...
Electro-thermal transport phenomena in semiconductors are described by the non-isothermal drift-diff...
The van Roosbroeck system models current flows in (non-)degenerate semiconductor devices. Focusing o...
For a Voronoï finite volume discretization of the van Roosbroeck system with general charge carrier ...
We introduce a family of two point flux expressions for charge carrier transport described by d...
The van Roosbroeck system describes the semi-classical transport of free electrons and holes in a se...
We introduce a family of two point flux expressions for charge carrier transport described by drift-...
Electro-thermal transport phenomena in semiconductors are described by the non-isothermal drift-diff...
We analyze and benchmark the error and the convergence order of finite difference, finite-element as...
We present charge transport models for novel semiconductor devices which may include ionic species a...
We introduce a family of two point flux expressions for charge carrier transport described by drift–...
Many challenges faced in today's semiconductor devices are related to self-heating phenomena. The op...
Driven by applications like organic semiconductors there is an increased interest in numerical simul...
Driven by applications like organic semiconductors there is an increased interest in numerical simul...
At cryogenic temperatures the electron-hole plasma in semiconductor materials becomes strongly degen...
Many challenges faced in today's semiconductor devices are related to self-heating phenomena. The op...
Electro-thermal transport phenomena in semiconductors are described by the non-isothermal drift-diff...