Accurate Prediction of Charge-State-Decay Timescales for NV<sup>-</sup> centers in Diamond
ORAL
Abstract
The NV- color center in diamond has broad potential for applications in quantum sensing, computation, and communication. Nonetheless, the tendency of the NV- to revert to its neutral counterpart the NV0, which detrimentally affects its useful characteristics, remains to be fully overcome. We provide an ab initio formalism for accurately estimating the timescales for charge-state decay of the NV- in diamond and, more generally, of color centers in wide-bandgap semiconductors. Working in the context of thermal equilibrium, our formalism employs hybrid density functional theory calculations to achieve its accuracy. The transition of NV− to NV0 in the presence of substitutional N is used to illustrate the method [see Z. Yuan et al., PRR 2, 033263 (2020)].
*R.K.D. gratefully acknowledges financial support from the Princeton Presidential Postdoctoral Research Fellowship and from the National Academies of Science, Engineering, and Medicine Ford Foundation Postdoctoral Fellowship program. We additionally acknowledge support by the STC Center for Integrated Quantum Materials, NSF Grant No. DMR-1231319.
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Publication: R. Kuate Defo, A. W. Rodriguez, and S. L. Richardson. "Charge-State Stability of Color Centers in Wide-Bandgap Semiconductors," arXiv:2307.16072 [cond-mat.mtrl-sci].
Presenters
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Rodrick Kuate Defo
- Princeton University