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Vanadium spin qubits as telecom quantum emitters in silicon carbide.


ABSTRACT: Solid-state quantum emitters with spin registers are promising platforms for quantum communication, yet few emit in the narrow telecom band necessary for low-loss fiber networks. Here, we create and isolate near-surface single vanadium dopants in silicon carbide (SiC) with stable and narrow emission in the O band, with brightness allowing cavity-free detection in a wafer-scale material. In vanadium ensembles, we characterize the complex d 1 orbital physics in all five available sites in 4H-SiC and 6H-SiC. The optical transitions are sensitive to mass shifts from local silicon and carbon isotopes, enabling optically resolved nuclear spin registers. Optically detected magnetic resonance in the ground and excited orbital states reveals a variety of hyperfine interactions with the vanadium nuclear spin and clock transitions for quantum memories. Last, we demonstrate coherent quantum control of the spin state. These results provide a path for telecom emitters in the solid state for quantum applications.

SUBMITTER: Wolfowicz G 

PROVIDER: S-EPMC7195180 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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Vanadium spin qubits as telecom quantum emitters in silicon carbide.

Wolfowicz Gary G   Anderson Christopher P CP   Diler Berk B   Poluektov Oleg G OG   Heremans F Joseph FJ   Awschalom David D DD  

Science advances 20200501 18


Solid-state quantum emitters with spin registers are promising platforms for quantum communication, yet few emit in the narrow telecom band necessary for low-loss fiber networks. Here, we create and isolate near-surface single vanadium dopants in silicon carbide (SiC) with stable and narrow emission in the O band, with brightness allowing cavity-free detection in a wafer-scale material. In vanadium ensembles, we characterize the complex <i>d</i> <sup>1</sup> orbital physics in all five available  ...[more]

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