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Waveguide-integrated single-crystalline GaP resonators on diamond

Large-scale entanglement of nitrogen-vacancy (NV) centers in diamond will require integration of NV centers with optical networks. Toward this goal, we present the fabrication of single-crystalline gallium phosphide (GaP) resonator-waveguide coupled structures on diamond. We demonstrate coupling between 1 μm diameter GaP disk resonators and waveguides with a loaded Q factor of 3,800, and evaluate their potential for efficient photon collection if integrated with single photon emitters. This work opens a path toward scalable NV entanglement in the hybrid GaP/diamond platform, with the potential to integrate on-chip photon collection, switching, and detection for applications in quantum information processing.

preprint2014arXivOpen access
Nicole ThomasRussell J. BarbourYuncheng SongMinjoo Larry LeeKai-Mei C. Fu
cond-mat.mes-hallphysics.optics
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Nicole ThomasRussell J. BarbourYuncheng SongMinjoo Larry LeeKai-Mei C. Fu

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