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Quantum state transfer among crystallographic groups of N-V centers in diamond

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We investigate collections of Nitrogen-Vacancy (N-V) Centers in diamond crystals coupled to a circuit QED system of a coplanar waveguide (CPWG) resonator. Our analysis reveals that different symmetry axes oriented N-V centers in the diamond host can be grouped into bosonic modes of collective quasi-spin wave excitations so that the hybrid system can be described as an analog of an exciton-polariton type cavity QED model. We examine such model for quantum state transfer among distinct crystallographic groups of N-V centers in a single diamond as well as two spatially distant diamonds. Rabi oscillations, mode entanglement, possible use of N-V classes as spin ensemble qubits and an implementation of continuous-time quantum random walk are discussed.

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Society of Photo-optical Instrumentation Engineers (SPIE)

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Engineering, Electrical and electronic, Optics

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Integrated Photonics: Materials, Devices, And Applications

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10.1117/12.887122

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