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Anderson, Christopher P. ; Bourassa, Alexandre ; Miao, Kevin C. ; Wolfowicz, Gary ; Mintun, Peter J. ; Crook, Alexander L. ; Abe, Hiroshi ; Ul Hassan, Jawad ; Son, Nguyen T. ; Ohshima, Takeshi ; et al ( , Science)
Spin defects in silicon carbide have the advantage of exceptional electron spin coherence combined with a near-infrared spin-photon interface, all in a material amenable to modern semiconductor fabrication. Leveraging these advantages, we integrated highly coherent single neutral divacancy spins in commercially available p-i-n structures and fabricated diodes to modulate the local electrical environment of the defects. These devices enable deterministic charge-state control and broad Stark-shift tuning exceeding 850 gigahertz. We show that charge depletion results in a narrowing of the optical linewidths by more than 50-fold, approaching the lifetime limit. These results demonstrate a method for mitigating the ubiquitous problem of spectral diffusion in solid-state emitters by engineering the electrical environment while using classical semiconductor devices to control scalable, spin-based quantum systems.
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Yeats, Andrew L. ; Mintun, Peter J. ; Pan, Yu ; Richardella, Anthony ; Buckley, Bob B. ; Samarth, Nitin ; Awschalom, David D. ( , Proceedings of the National Academy of Sciences)