Add to ORKGWe presents results from a predictive atomic level simulation of Boron diffusion in Silicon under a wide variety of implant and annealing conditions. The parameters for this simulation have been extracted from first principle approximation models and molecular dynamics simulations. The results are compared with experiments showing good agreement in all cases. The parameters and reactions used have been implemented into a continuum-level model simulator
The time evolution of the transient enhanced diffusion and of the electrical activation of boron in ...
The modeling of the atom-by-atom growth of extended defects is coupled to the diffusion equations of...
Ion implantation's selectivity plays a very important role in forming the active device region of bi...
The compatibility of atomistic simulations with continuum methods is tested by applying empirical mo...
A two stream model of boron diffusion in silicon has been developed. The model is intended for simul...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...
We review our recent work on an atomistic approach to the development of predictive process simulati...
In this contribution we present a model for transient enhanced diffusion of boron in silicon. This m...
A model for simulating the rapid thermal annealing of silicon structures implanted with boron and ca...
Coupled diffusion-reaction equations for boron and for point defects and rather simple initial condi...
A quantitative description of the transient diffusion and activation of boron during post-implantati...
The continuous scaling of electron devices places strong demands on device design and simulation. Th...
A quantitative description of the transient diffusion and activation of boron during post-implantati...
We have studied the implantation of boron and arsenic ions into silicon by classical molecular dynam...
We present a fully calibrated and parameterized model for the diffusion of boron in silicon in the p...
The time evolution of the transient enhanced diffusion and of the electrical activation of boron in ...
The modeling of the atom-by-atom growth of extended defects is coupled to the diffusion equations of...
Ion implantation's selectivity plays a very important role in forming the active device region of bi...
The compatibility of atomistic simulations with continuum methods is tested by applying empirical mo...
A two stream model of boron diffusion in silicon has been developed. The model is intended for simul...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...
We review our recent work on an atomistic approach to the development of predictive process simulati...
In this contribution we present a model for transient enhanced diffusion of boron in silicon. This m...
A model for simulating the rapid thermal annealing of silicon structures implanted with boron and ca...
Coupled diffusion-reaction equations for boron and for point defects and rather simple initial condi...
A quantitative description of the transient diffusion and activation of boron during post-implantati...
The continuous scaling of electron devices places strong demands on device design and simulation. Th...
A quantitative description of the transient diffusion and activation of boron during post-implantati...
We have studied the implantation of boron and arsenic ions into silicon by classical molecular dynam...
We present a fully calibrated and parameterized model for the diffusion of boron in silicon in the p...
The time evolution of the transient enhanced diffusion and of the electrical activation of boron in ...
The modeling of the atom-by-atom growth of extended defects is coupled to the diffusion equations of...
Ion implantation's selectivity plays a very important role in forming the active device region of bi...