Add to ORKGA model hierarchy of macroscopic models for quantum semiconductors is presented. Furthermore, a review on recent results obtained for two classes of these macroscopic models: the quantum hydrodynamic and the quantum drift-diffusion equations is given. In particular, the existence of solutions and their qualitative behavior is studied and a numerical scheme for the quantum drift-diffusion model is derived. Finally, this scheme is applied to the transient simulation of a resonant tunneling diode
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
AbstractThis paper describes numerical methods for a quantum energy transport (QET) model in semicon...
International audienceWe present an entropic Quantum Drift Diffusion model (eQDD). Some links betwee...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
Semiconductor models based on classical or semi\--classical mechanics (like the drift-diffusion equ...
An extension of the classical hydrodynamic model for semiconductor devices to include quantum transp...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
AbstractThis paper describes numerical methods for a quantum energy transport (QET) model in semicon...
International audienceWe present an entropic Quantum Drift Diffusion model (eQDD). Some links betwee...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
In this paper, we propose a unified framework for Quantum-corrected drift-diffusion (QCDD) models in...
Semiconductor models based on classical or semi\--classical mechanics (like the drift-diffusion equ...
An extension of the classical hydrodynamic model for semiconductor devices to include quantum transp...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
n this article, we deal with the numerical approximation of a quantum drift-diffusion model capable ...
AbstractThis paper describes numerical methods for a quantum energy transport (QET) model in semicon...
International audienceWe present an entropic Quantum Drift Diffusion model (eQDD). Some links betwee...