Molecular dynamics study of damage generation mechanisms in silicon at the low energy regime

Author

Santos, Iván ; Marqués, Luis A. ; Pelaz, Lourdes ; López, Pedro

Author_Institution

Univ. de Valladolid, Valladolid

fYear

2007

fDate

Jan. 31 2007-Feb. 2 2007

Firstpage

37

Lastpage

40

Abstract

We have used classical molecular dynamics simulations to study the damage generation mechanisms in silicon for energy transfers below the atomic displacement energy. These low energy interactions, usually ignored in binary collision based models, establish the difference in damage morphology for different ions. Our work is focused on determining the conditions under which amorphous pockets are formed using a molecular dynamics simulation scheme. We have incorporated the effect of low energy interactions in a binary collision model using our simulation results. This improved model is able to reproduce the damage structures obtained with molecular dynamics but with a much lower computational cost.

Keywords

elemental semiconductors; molecular collisions; molecular dynamics method; silicon; Si; atomic displacement energy; binary collision based models; binary collision model; damage generation mechanisms; damage morphology; damage structures; energy transfers; low energy interactions; low energy regime; molecular dynamics study; silicon; Amorphous materials; Atomic layer deposition; Computational efficiency; Computational modeling; Energy exchange; Fabrication; Ion implantation; Lattices; Semiconductor process modeling; Silicon; Damage generation mechanisms; Molecular dynamics; Silicon;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices, 2007 Spanish Conference on

Conference_Location

Madrid

Print_ISBN

1-4244-0868-7

Type

conf

DOI

10.1109/SCED.2007.383990

Filename

4271162