English

Linearized force constants method for lattice dynamics in mixed semiconductors

Materials Science 2008-01-08 v1 Disordered Systems and Neural Networks

Abstract

A simple and accurate method of calculating phonon spectra in mixed semiconductors alloys, on the basis of preliminarily (from first principles) relaxed atomic structure, is proposed and tested for (Zn,Be)Se and (Ga,In)As solid solutions. The method uses an observation that the interatomic force constants, calculated ab initio for a number of microscopic configurations in the systems cited, show a clear linear variation of the main (diagonal) values of the interatomic force constants with the corresponding bond length. We formulate simple rules about how to recover the individual 3x3 subblocks of the force constants matrix in their local (bonds-related) coordinate systems and how to transform them into a global (crystal cell-related) coordinate system. Test calculations done for 64-atom supercells representing different concentrations of (Zn,Be)Se and (Ga,In)As show that the phonon frequencies and compositions of eigenvectors are faithfully reproduced in a linearized force constants calculation, as compared to true ab initio calculations.

Keywords

Cite

@article{arxiv.0709.3104,
  title  = {Linearized force constants method for lattice dynamics in mixed semiconductors},
  author = {Ayoub Nassour and Joseph Hugel and A. V. Postnikov},
  journal= {arXiv preprint arXiv:0709.3104},
  year   = {2008}
}

Comments

to appear in the proceedings of the Phonons2007 conference (Paris, July 2007)

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