Add to ORKGtextA physically-based model for ion implantation of any species into single crystal silicon and a few amorphous materials has been developed, tested and implemented in ion implant simulator UT-MARLOWE. In this model, an interpolation scheme, based on mathematical properties of ion-target interatomic potential, was employed and implemented to calculate the scattering process. Using this scheme, the resulting energy, direction and momentum of the ion and target can be derived from the existing scattering tables of UT-MARLOWE without calculating the whole scattering process. The method has advantages in both accuracy and computational efficiency, as well as significantly reduced cost of code development. The impurity profiles and dama...
A new method for an accurate and CPU time efficient three-dimensional simulation of ion implantation...
Ion implantation is the most important doping technique for VLSI circuits. In this contribution, mod...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX83397 / BLDSC - British Library Do...
A new damage model for ion implantation simulation based on molecular dynamic method is introduced i...
A new damage model for ion implantation simulation based on molecular dynamic method is introduced i...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX177890 / BLDSC - British Library D...
ABC Si-subs. Keywords Ion implantationn, Silicon, Modeling, Simulation, Monte Carlo model Abstract-...
A novel splitting algorithm called MC-AIPA is proposed for MC (Monte Carlo) ion implantation simulat...
In this paper, a new method for an accurate and time efficient 3D simulation of ion implantation and...
For the analytical description of doping profiles after Ion Implantation, good multilayer models are...
Using binomial distribution, we have created a structure to describe Si1-xGex substrate, so ion impl...
We have developed a reliable and efficient molecular dynamics program LEACS to simulate the low ener...
textA physically-based 3-dimensional Monte-Carlo simulator has been developed within UT-MARLOWE, whi...
The amorphization of silicon due to atomic displacement during ion implantation has been simulated. ...
textA physically-based 3-dimensional Monte-Carlo simulator has been developed within UT-MARLOWE, whi...
A new method for an accurate and CPU time efficient three-dimensional simulation of ion implantation...
Ion implantation is the most important doping technique for VLSI circuits. In this contribution, mod...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX83397 / BLDSC - British Library Do...
A new damage model for ion implantation simulation based on molecular dynamic method is introduced i...
A new damage model for ion implantation simulation based on molecular dynamic method is introduced i...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX177890 / BLDSC - British Library D...
ABC Si-subs. Keywords Ion implantationn, Silicon, Modeling, Simulation, Monte Carlo model Abstract-...
A novel splitting algorithm called MC-AIPA is proposed for MC (Monte Carlo) ion implantation simulat...
In this paper, a new method for an accurate and time efficient 3D simulation of ion implantation and...
For the analytical description of doping profiles after Ion Implantation, good multilayer models are...
Using binomial distribution, we have created a structure to describe Si1-xGex substrate, so ion impl...
We have developed a reliable and efficient molecular dynamics program LEACS to simulate the low ener...
textA physically-based 3-dimensional Monte-Carlo simulator has been developed within UT-MARLOWE, whi...
The amorphization of silicon due to atomic displacement during ion implantation has been simulated. ...
textA physically-based 3-dimensional Monte-Carlo simulator has been developed within UT-MARLOWE, whi...
A new method for an accurate and CPU time efficient three-dimensional simulation of ion implantation...
Ion implantation is the most important doping technique for VLSI circuits. In this contribution, mod...
SIGLEAvailable from British Library Document Supply Centre- DSC:DX83397 / BLDSC - British Library Do...