Bright oxygen- and vacancy-derived spin-singlet diamond color centers with metastable spin triplets: OV2+ and VOV2+

Abstract

The ST1 diamond color center was experimentally demonstrated to involve a substitutional oxygen atom (OC) and carbon vacancy (VC), has a spin singlet ground-state, and a metastable electron spin ancilla: a triplet. ST1's structure was left unsolved for more than a decade. With embedded multiconfigurational quantum mechanical theory, we investigate OC-VC-derived diamond defects, specifically both 0 and +2-charged coupled OCVC, and OC surrounded by VCs along the [110] axis (VCOCVC). We found both OCVC2+ (C3v) and VCOCVC2+ (C2v) to have a spin-singlet ground state (11A1) and metastable spin triplets. We demonstrate ST1 to be VCOCVC2+. The calculated vertical excitation energies of VCOCVC2+'s first (11B2) and second (21A1) bright spin-singlet excited states closely match ST1's experimental zero phonon line (2.2-2.3 eV). OCVC2+ (1E) absorbs much higher (2.8 eV). The two O lone pairs favor VCOCVC over OCVC, in a similar manner as the single N lone pair favors formation of NCVC centers.

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