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Molecular Dynamics Study Of Si/Si3N4 Interface

Published online by Cambridge University Press:  10 February 2011

Martina E. Bachlechner ,
Ingvar Ebbsjö ,
Rajiv K. Kalia  and
Priya Vashishta
Martina E. Bachlechner
Affiliation:
Concurrent Computing Laboratory for Materials Simulations Department of Physics and Astronomy Department of Computer Science, Louisiana State University, Baton Rouge, LA 70803 martina@rouge.phys.lsu.edu
Ingvar Ebbsjö
Affiliation:
The Studsvik Neutron Research Laboratory, University of Uppsala, http://www.cclms.lsu.edu S-61182 Nyköping, Sweden
Rajiv K. Kalia
Affiliation:
Concurrent Computing Laboratory for Materials Simulations Department of Physics and Astronomy Department of Computer Science, Louisiana State University, Baton Rouge, LA 70803 martina@rouge.phys.lsu.edu
Priya Vashishta
Affiliation:
Concurrent Computing Laboratory for Materials Simulations Department of Physics and Astronomy Department of Computer Science, Louisiana State University, Baton Rouge, LA 70803 martina@rouge.phys.lsu.edu
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Abstract

Structural correlations at the Si(111)/Si3N4(0001) interface are studied using the molecular dynamics (MD) method. In the bulk, Si is described by the Stillinger-Weber potential and Si3N4 by an interaction potential which contains two-body (steric, Coulomb, electronic polarizabilities) and three-body (bond bending and stretching) terms. At the interface, the charge transfer from silicon to nitrogen is taken from LCAO electronic structure calculations. Using these Si, Si3N4 and interface interactions in MD simulations, the interface structure (atomic positions, bond lengths, and bond angles) is determined. Results for fracture in silicon are also presented.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 446: Amorphous and Crystalline Insulating Thin Films–1996 , 1996 , 157
Copyright
Copyright © Materials Research Society 1997

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References

1 Brede, M., Haasen, P., Acta metallica, 36, 20032018 (1988).Google Scholar
2 John, C. St., Philosophical Magazine, 11931212 (1975).Google Scholar
3 Juan, Y.-M., Sun, Y., Kaxiras, E., Philosophical Magazine Letters, 73, 233 (1996).Google Scholar
4 Arias, T. A., Joannopoulos, J. D., Physical Review Letters, 73, 680 (1994).Google Scholar
5 Zhou, S. J., Carlsson, A. E., Thomson, R., Physical Review Letters, 72, 852 (1994).Google Scholar
6 O'Mara, W. C., Herring, R. B., Hunt, L. P., Handbook of Semiconductor Silicon Technology, Noyes Publications, Park Ridge, New Jersey, U.S.A., 1990.Google Scholar
7 Johansson, S., Ericson, F., Schweitz, J.-A., Journal of Applied Physics, 65, 122128 (1989).Google Scholar
8 Aberle, A. G., Lauinger, T., Schmidt, J., Hezel, R., Applied Physics Letters, 66, 28282830 (1995).Google Scholar
9 Meyer, C., Lupke, G., Emmerichs, U., Wolter, F., Kurz, H., Bjorkman, C.H., Lucovsky, G., Physical Review Letters, 74, 30013004 (1995).Google Scholar
10 Stesmans, A., Gorp, G. V., Physical Review B, 52, 89048920 (1995).Google Scholar
11 Ito, T., Nakamura, T., Ishikawa, H., IEEE Transaction on Electron Devices, ED-29, 498502 (1982).Google Scholar
12 Kaushik, V. S., Datye, A.K., Kendall, D.L., Martinez-Tovar, B., Simons, D.S., Myers, D.R., Journal of Materials Research, 4, 394398 (1989).Google Scholar
13 Vashishta, P., Kalia, R.K., Nakano, A., Li, W., Ebbsjö, I. in Amorphous Insulators and Semiconductors, edited by Thorpe, M.F. and Mitkova, M.I (NATO ASI, 1996)Google Scholar
14 Loong, C.-K., Vashishta, P., Kalia, R. K., Ebbsjö, I., Europhysics Letters, 31, 201206 (1995).Google Scholar
15 Vashishta, P., Kalia, R. K., Ebbsjö, I., Physical Review Letters, 75, 858861 (1995).Google Scholar
16 Stillinger, F. H., Weber, T. A., Physical Review B, 31, 52625271 (1985).Google Scholar
17 Zhao, L., Bachlechner, M. E., Electronic Structure. Charge Distribution, and Charge Transfer in a- and b-Si3N4and at the Si(111)/Si3N4(001) Interface, accepted for publication in Euro Physics Letters (1996).Google Scholar
18 Nakano, A., Kalia, R. K., Vashishta, P., Physical Review Letters, 75, 31383141 (1995).Google Scholar
19 Nakano, A., Kalia, R. K., Vashishta, P. in Materials Theory . Simulations, and Parallel Algorithms, edited by Kaxiras, E., Joannopoulos, J., Vashishta, P., Kalia, R.K. (Mater. Res. Soc. Proc. 408, Pittsburgh, PA, 1996), p. 205215.Google Scholar