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Time-dependent density-functional approach for exciton binding energies

Materials Science 2015-05-13 v1 Other Condensed Matter
Authors: V. Turkowski , C. A. Ullrich
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Abstract

Optical processes in insulators and semiconductors, including excitonic effects, can be described in principle exactly using time-dependent density-functional theory (TDDFT). Starting from a linearization of the TDDFT semiconductor Bloch equations in a two-band model, we derive a simple formalism for calculating excitonic binding energies. This formalism leads to a generalization of the standard Wannier equation for excitons, featuring a nonlocal effective electron-hole interaction determined by long-range and dynamical exchange-correlation (XC) effects. We calculate excitonic binding energies in several direct-gap semiconductors, using exchange-only and model XC kernels.

Keywords

time-dependent density functional theory excitons in semiconductors density functional theory

Cite

@article{arxiv.0903.0027,
  title  = {Time-dependent density-functional approach for exciton binding energies},
  author = {V. Turkowski and C. A. Ullrich},
  journal= {arXiv preprint arXiv:0903.0027},
  year   = {2015}
}

Comments

4 pages, 1 figure

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