English

Improved self-energy correction method for accurate and efficient band structure calculation

Computational Physics 2024-09-17 v2 Materials Science

Abstract

The LDA-1/2 method for self-energy correction is a powerful tool for calculating accurate band structures of semiconductors, while keeping the computational load as low as standard LDA. Nevertheless, controversies remain regarding the arbitrariness of choice between (1/2)e and (1/4)e charge stripping from the atoms in group IV semiconductors, the incorrect direct band gap predicted for Ge, and inaccurate band structures for III-V semiconductors. Here we propose an improved method named shell-LDA-1/2 (shLDA-1/2 for short), which is based on a shell-like trimming function for the self-energy potential. With the new approach, we obtained accurate band structures for group IV, and for III-V and II-VI compound semiconductors. In particular, we reproduced the complete band structure of Ge in good agreement with experimental data. Moreover, we have defined clear rules for choosing when (1/2)e or (1/4)e charge ought to be stripped in covalent semiconductors, and for identifying materials for which shLDA-1/2 is expected to fail.

Keywords

Cite

@article{arxiv.1701.02650,
  title  = {Improved self-energy correction method for accurate and efficient band structure calculation},
  author = {Kan-Hao Xue and Jun-Hui Yuan and Leonardo R. C. Fonseca and Xiang-Shui Miao},
  journal= {arXiv preprint arXiv:1701.02650},
  year   = {2024}
}

Comments

15 pages, 4 figures, 1 table

R2 v1 2026-06-22T17:46:18.043Z