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Simulations of Carbon Containing Semiconductor Alloys: Bonding, Strain Compensation, and Surface Structure

Author

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  • P. C. Kelires

    (Physics Department, University of Crete, P. O. Box 2208, 710 03 Heraclion, Crete, Greece;
    Foundation for Research and Technology-Hellas (FORTH), P. O. Box 1527, 711 10 Heraclion, Crete, Greece)

Abstract

This paper reviews recent Monte Carlo simulations within the empirical potential approach, which give insights into fundamental aspects of the bulk and surface structure of group-IV semiconductor alloys containing carbon. We focus on the binarySi1-xCxand ternarySi1-x-yGexCyalloys strained on silicon substrates. The statistical treatment of these highly strained alloys is made possible by using the semigrand canonical ensemble. We describe here improvements in the algorithm which considerably speed up the method. We show that the identity switches, which are the basic ingredients in this statistical ensemble, must be accompanied by appropriate relaxations of nearest neighbors in order to reach "quasiequilibrium" in metastable systems with large size mismatch between the constituent atoms. This effectively lowers the high formation energies and large barriers for diffusion which make molecular dynamics methods impractical for this problem. The most important findings of our studies are: (a) The prediction of a repulsive Ge–C interaction and of a preferential C–C interaction in the lattice. (b) The prediction for significant deviations of the structural parameters and of the elastic constants from linearly interpolated values (Vegard's law). As a result, for a given amount of carbon, strain compensation is shown to be more drastic than previously thought. (c) Investigation of the surface problem shows that the competition between the reconstruction strain field and the preferential arrangement of carbon atoms leads to new complicated structural patterns.

Suggested Citation

  • P. C. Kelires, 1998. "Simulations of Carbon Containing Semiconductor Alloys: Bonding, Strain Compensation, and Surface Structure," International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 9(02), pages 357-389.
  • Handle: RePEc:wsi:ijmpcx:v:09:y:1998:i:02:n:s0129183198000285
    DOI: 10.1142/S0129183198000285
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