English

Polaronic hole-trapping in doped $\rm BaBiO_3$

Materials Science 2015-05-13 v2
Authors: C. Franchini , G. Kresse , R. Podloucky
View on arXiv PDF DOI

Abstract

The present {\em ab initio} study shows that in BaBiO3_3, Bi3+^{3+} sites can trap two holes from the valence band to form Bi5+^{5+} cations. The trapping is accompanied by large local lattice distortions, therefore the composite particle consisting of the electronic-hole and the local lattice phonon field forms a polaron. Our study clearly shows that even spsp elements can trap carriers at lattice sites, if local lattice relaxations are sufficiently large to screen the localised hole. The derived model describes all relevant experimental results, and settles the issue of why hole doped BaBiO3_3 remains semiconducting upon moderate hole doping.

Keywords

doping in semiconductors

Cite

@article{arxiv.0812.1238,
  title  = {Polaronic hole-trapping in doped $\rm BaBiO_3$},
  author = {C. Franchini and G. Kresse and R. Podloucky},
  journal= {arXiv preprint arXiv:0812.1238},
  year   = {2015}
}

Comments

Physical Review Letters, accepted (2009)

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