Band Anticrossing in Dilute Germanium Carbides Using Hybrid Functionals

Band Anticrossing in Dilute Germanium Carbides Using Hybrid Functionals

Dilute germanium carbides (Ge1-xCx) offer a direct bandgap for compact silicon photonics, but widely varying results have been reported. This work uses ab initio simulations with HSE06 hybrid functionals and spin-orbit coupling to study the Ge1-xCx band structure behavior in the absence of defects....

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Veröffentlicht in:arXiv.org 2015-01
Hauptverfasser: Stephenson, Chad A, O'Brien, William A, Meng Qi, Penninger, Michael, Schneider, William, Wistey, Mark A
Format: Artikel
Sprache:eng
Schlagworte:
Brillouin zones
Carbides
Computer simulation
Conduction bands
Dilution
Energy gap
Photonics
Physics - Computational Physics
Physics - Materials Science
Spin-orbit interactions
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Zusammenfassung:Dilute germanium carbides (Ge1-xCx) offer a direct bandgap for compact silicon photonics, but widely varying results have been reported. This work uses ab initio simulations with HSE06 hybrid functionals and spin-orbit coupling to study the Ge1-xCx band structure behavior in the absence of defects. Contrary to Vegard's law, the conduction band minimum at k=0 is consistently found to decrease with increasing C content, while L and X valleys change much more slowly. A vanishing bandgap was observed for all alloys with x>0.017. Conduction bands deviate from a constant-potential band anticrossing model except near the center of the Brillouin zone.
ISSN:2331-8422
DOI:10.48550/arxiv.1410.8383