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In this Letter, the photoinduced switching of the single nitrogen-vacancy (NV) center between two different charge states, negative (NV^-) and neutral (NV^0), is studied under resonant excitation at liquid helium temperature. We show that resonant conversion of NV^0 to NV^- significantly improves spectral stability of the NV^- defect and allows high fidelity initialization of the spin qubit. Based on density functional theory calculations a novel mechanism involving an Auger ionization of NV^- and charge transfer of an electron from the valence band to NV^0 is discussed. This study provides further insight into the charge dynamics of the NV center, which is relevant for quantum information processing based on an NV^- defect in diamond.
Siyushev et al. (Tue,) studied this question.