Process simulation programs are valuable in generating accurate impurity profiles. Apart from accuracy the programs should also be efficient so as not to consume vast computer memory. This is especially true for devices and circuits of VLSI complexity. In this paper a remeshing scheme to make the finite element based solution of the non-linear diffusion equation more efficient is proposed. A remeshing scheme based on comparing the concentration values of adjacent node was then implemented and found to remove the problems of oscillation
We review our recent work on an atomistic approach to the development of predictive process simulati...
AbstractLaser-assisted diffusion of dopants is a promising way to realize selective emitter solar ce...
In this paper, we introduce a method for the fast simulation of 3D impurity profile simulation We an...
A description is given of the application of the Moving Finite Element CMFE] method to the solution ...
An extended Jive-stream model Jor diffusion in silicon is presented. A finite-difference method for ...
A streamline-diffusion finite element method, specially designed for semiconductor device models, is...
The paper contains information about analytical solutions of diffusion equation which have been obta...
The elementary classical models for idealized diffusion conditions are described, and the principles...
The two-dimensional (2-D) redistribution of impurities in semiconductors is an important step for th...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
[Abstract] Optimization of impurity diffusion parameters in silicon.is investigated. Number of param...
Keywords- Power bipolar devices, diffusion problems, modeling and simulation. This paper presents a ...
Abstract- Mesh generation and adaption for solving dopant diffusion in process simulation is a diffi...
This paper presents a variational formulation of the Ambipolar Diffusion Equation (ADE) and a finite...
A new finite element scheme for diffusion process simulation, which allows coarse grid spacings in t...
We review our recent work on an atomistic approach to the development of predictive process simulati...
AbstractLaser-assisted diffusion of dopants is a promising way to realize selective emitter solar ce...
In this paper, we introduce a method for the fast simulation of 3D impurity profile simulation We an...
A description is given of the application of the Moving Finite Element CMFE] method to the solution ...
An extended Jive-stream model Jor diffusion in silicon is presented. A finite-difference method for ...
A streamline-diffusion finite element method, specially designed for semiconductor device models, is...
The paper contains information about analytical solutions of diffusion equation which have been obta...
The elementary classical models for idealized diffusion conditions are described, and the principles...
The two-dimensional (2-D) redistribution of impurities in semiconductors is an important step for th...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
[Abstract] Optimization of impurity diffusion parameters in silicon.is investigated. Number of param...
Keywords- Power bipolar devices, diffusion problems, modeling and simulation. This paper presents a ...
Abstract- Mesh generation and adaption for solving dopant diffusion in process simulation is a diffi...
This paper presents a variational formulation of the Ambipolar Diffusion Equation (ADE) and a finite...
A new finite element scheme for diffusion process simulation, which allows coarse grid spacings in t...
We review our recent work on an atomistic approach to the development of predictive process simulati...
AbstractLaser-assisted diffusion of dopants is a promising way to realize selective emitter solar ce...
In this paper, we introduce a method for the fast simulation of 3D impurity profile simulation We an...