Conference papers
Permanent URI for this collection
Browse
Browsing Conference papers by Subject "decaborane implantation"
Now showing 1 - 1 of 1
Results Per Page
Sort Options
Item Open Access Computer simulation of decaborane implantation and rapid thermal annealing(IEEE. Ion Implantation Technology Proceedings, 1998 International Conference, 1999-12) Insepov, Z.; Aoki, T.; Matsuo, J.; Yamada, I.Molecular Dynamics (MD) and Metropolis Monte- Carlo (MMC) models of monomer B and decaborane implantation into Si and following rapid thermal annealing (RTA) processes have been developed. The implanted B dopant and Si-atomic diffusion coefficients were obtained for different substrate temperatures. The simulation of decaborane ion implantation has revealed the formation of an amorphized area in a subsurface region, much larger than that of a single B+ implantation, with the same energy per ion. The calculated B diffusion coefficient has values between 10-'2-10-1c0m 2 s" which agrees well with experimental values obtained for an equilibrium B dopant in Si. Our calculations have shown an unusual temperature dependence with two different activation energies. Low activation energy, less than 0.2 eV, was obtained for a low temperature region, and a higher activation energy, - 3 eV, for a higher-temperature region which is typical for the RTA processing. The higher activation energy is comparable with the equilibrium activation energy, 3.4 eV, for B diffusion in Si. The diffusivity for Si atoms was obtained to be in the interval - l0l2 cm2 s-I. In our present simulation for decaborane cluster implantation into Si, we have not observed the TED phenomenon.