Scientific Computing Seminar

Date:

Friday, January 21, 2005

Time:

1:00pm-2:00pm

Location:

50F-1647

Seminar Speaker:

Ben Haley
Department of Applied Science
UC Davis
bphaley (AT) ganymede (DOT) das (DOT) ucdavis (DOT) edu

Title:

Kinetic Lattice Monte Carlo study of vacancy assisted arsenic diffusion and time dependent clustering effects in silicon

Abstract:

We present results of kinetic lattice Monte Carlo (KLMC) simulations of substitutional arsenic diffusion in silicon mediated by lattice vacancies. Large systems are considered, with 1000 dopant atoms and long range ab initio interactions, to the 18th nearest lattice neighbor, and the diffusivity of each defect species over time is calculated. The concentration of vacancies is greater than equilibrium concentrations, in order to simulate conditions shortly after ion implantation. A previously unreported time dependence in the applicability of the pair diffusion model, even at low temperatures, is demonstrated. Additionally, long range interactions are shown to be of critical importance in KLMC simulations; when shorter interaction ranges are considered, only clusters composed entirely of vacancies form. An increase in arsenic diffusivity for arsenic concentrations up to 10^19 /cm^3 is observed, along with a decrease in arsenic diffusivity for higher arsenic concentrations, due to the formation of arsenic dominated clusters. Finally, the effect of vacancy concentration on diffusivity and clustering is studied, and increasing vacancy concentration is found to lead to a greater number of clusters, more defects per cluster, and a greater vacancy fraction within the clusters.

Sponsor of Seminar:

Andrew Canning

Scientific Computing

Contact Esmond G. Ng EGNg@lbl.gov