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Electrical and Optical Control of Cavity-Coupled Single T Center Spins in Silicon

Organization William Marsh Rice UniversityLocation HOUSTON, United StatesPosted 1 Oct 2025Deadline 30 Sept 2028
NSFUS FederalResearch GrantScience FoundationTX
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Quantum networking represents an enabling technology to build distributed quantum systems through remote entanglement. It offers transformative capabilities in secure communications and constructing large-scale quantum computers. T centers in silicon emerge as a novel type of qubit for quantum networking applications, owing to their preferrable…

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Electrical and Optical Control of Cavity-Coupled Single T Center Spins in Silicon — William Marsh Rice University | Unit | Dev Procure