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GW electronic structure calculations of Co doped ZnO

Recently the point defect responsible for the intra-3$d$ luminescence of cobalt in doped ZnO samples has been indentified\,\cite{pssb2019}. In this work we further extend our investigation to other point defects in Co-doped ZnO. We use density-functional theory and GW calculations to determined the orbital-resolved band structure of cobalt doped zinc oxide (ZnO). We show that mainly O-p and Co-d orbitals take part in the process and confirm that an oxygen interstitial nearby a cobalt atom is a likely defect to occur in Co-implanted ZnO samples. We also rule out that other common point defects in ZnO can be responsible for the observed intra-3$d$ transition. Finally, we suggest that defect complexes involving oxygen interstitials could be used to promote ferromagnetism in cobalt doped ZnO samples.

preprint2019arXivOpen access
Dennis FrankeMichael LorkeThomas FrauenheimA. L. da Rosa
cond-mat.mtrl-sci
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Dennis FrankeMichael LorkeThomas FrauenheimA. L. da Rosa

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