Add to ORKGEnergy-transport models describe the flow of electrons through a semiconductor device, influenced by diffusive, electrical, and thermal effects. They consist of the continuity equations for the mass and energy, coupled with Poisson's equation for the electrostatic potential. The energy-transport model can be written in a drift-diffusion formulation which is used for the numerical approximation. The stationary equations are discretized with an exponential fitting mixed finite-element method in two space dimensions. Numerical simulations of a ballistic diode are performed and numerical convergence rates are computed. Furthermore, a two-dimensional MESFET device with parabolic band structure is simulated
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
Energy-transport models describe the flow of electrons in a semiconductor crystal. Several formulat...
The energy-transport models describe the flow of electrons through a semiconductor crystal, influenc...
Energy-transport models are used in semiconductor simulations to account for thermal effects. The mo...
this paper, we are concerned with two modern semiconductor models: the energy-transport and the quan...
Abstract. The stationary energy-transport equations for semiconductors in three space dimen-sions ar...
This paper contains an overview on numerical schemes for some of the most widely used fluid models ...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
This paper first reviews some basic facts about electron transport in semiconductor materials. Then,...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
A simplified transient energy-transport system for semiconductors subject to mixed Dirichlet-Neumann...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
Energy-transport models describe the flow of electrons in a semiconductor crystal. Several formulat...
The energy-transport models describe the flow of electrons through a semiconductor crystal, influenc...
Energy-transport models are used in semiconductor simulations to account for thermal effects. The mo...
this paper, we are concerned with two modern semiconductor models: the energy-transport and the quan...
Abstract. The stationary energy-transport equations for semiconductors in three space dimen-sions ar...
This paper contains an overview on numerical schemes for some of the most widely used fluid models ...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
This paper first reviews some basic facts about electron transport in semiconductor materials. Then,...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
A simplified transient energy-transport system for semiconductors subject to mixed Dirichlet-Neumann...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...