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Paper detail

Universal coherence protection in a solid-state spin qubit

Decoherence largely limits the physical realization of qubits and its mitigation is critical to quantum science. Here, we construct a robust qubit embedded in a decoherence-protected subspace, obtained by hybridizing an applied microwave drive with the ground-state electron spin of a silicon carbide divacancy defect. The qubit is protected from magnetic, electric, and temperature fluctuations, which account for nearly all relevant decoherence channels in the solid state. This culminates in an increase of the qubit's inhomogeneous dephasing time by over four orders of magnitude (to > 22 milliseconds), while its Hahn-echo coherence time approaches 64 milliseconds. Requiring few key platform-independent components, this result suggests that substantial coherence improvements can be achieved in a wide selection of quantum architectures.

preprint2020arXivOpen access
Kevin C. MiaoJoseph P. BlantonChristopher P. AndersonAlexandre BourassaAlexander L. CrookGary WolfowiczHiroshi AbeTakeshi OhshimaDavid D. Awschalom
cond-mat.mes-hallquant-ph
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Kevin C. MiaoJoseph P. BlantonChristopher P. AndersonAlexandre BourassaAlexander L. CrookGary WolfowiczHiroshi AbeTakeshi OhshimaDavid D. Awschalom

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