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New "irreducible wedge" for scattering rate calculations in full-zone Monte Carlo simulations

VLSI Design (1998) 8(1-4) 413-417
DOI: 10.1155/1998/58129
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Abstract

To facilitate the implementation of accurate Brillouin zone integration codes for diamond-type semiconductors such as Si we have constructed a new "irreducible wedge" to be used in conjunction with tetrahedral k-space interpolations. This new wedge, defined by the vertices (000), (100), (110) and (1/21/21/2) (normalized to \X\ = 1), spans portions of the first three Brillouin zones and contains the equivalent of 1/48 of a Brillouin zone volume. Simple symmetry arguments may be used to establish the equivalency of this new wedge with the standard irreducible wedge.

Figures

  • FIGURE 2 New irreducible wedge.
  • FIGURE 3 An octahedron.
  • FIGURE 7 Density of states in Si computed using new irreducible wedge.
  • FIGURE 5 Surface of 2nd Brillouin zone of fcc lattice.
  • FIGURE 6 Wedge of modified 2nd Brillouin zone.

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APA

Stanley, J., & Goldsman, N. (1998). New “irreducible wedge” for scattering rate calculations in full-zone Monte Carlo simulations. VLSI Design, 8(1–4), 413–417. https://doi.org/10.1155/1998/58129

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