Charles Meuwly scite author profile

Efficient interfaces between photons and quantum emitters form the basis for quantum networks and enable nonlinear optical devices operating at the single-photon level. We demonstrate an integrated platform for scalable quantum nanophotonics based on silicon-vacancy (SiV) color centers coupled to nanoscale diamond devices. By placing SiV centers inside diamond photonic crystal cavities, we realize a quantum-optical switch controlled by a single color center. We control the switch using SiV metastable orbital states and verify optical switching at the single-photon level by using photon correlation measurements. We use Raman transitions to realize a single-photon source with a tunable frequency and bandwidth in a diamond waveguide. Finally, 1 arXiv:1608.05147v1 [quant-ph]

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Fiber-Coupled Diamond Quantum Nanophotonic Interface

Burek

et al. 2017

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-Color centers in diamond provide a promising platform for quantum optics in the solid state, with coherent optical transitions and long-lived electron and nuclear spins. Building upon recent demonstrations of nanophotonic waveguides and optical cavities in single-crystal diamond, we now demonstrate on-chip diamond nanophotonics with a high efficiency fiber-optical interface, achieving > 90% power coupling at visible wavelengths. We use this approach to demonstrate a bright source of narrowband single photons, based on a silicon-vacancy color center embedded within a waveguide-coupled diamond photonic crystal cavity. Our fiber-coupled diamond quantum nanophotonic interface results in a high flux (~ 38 kHz) of coherent single photons (near Fourier-limited at < 1 GHz bandwidth), into a single mode fiber, enabling new possibilities for realizing quantum networks that interface multiple emitters, both onchip and separated by long distances.3

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Fiber-integrated nanophotonic networks in bulk single-crystal diamond substrates (Conference Presentation)

Burek

Meuwly

Rochman

et al. 2016

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Charles Meuwly

An integrated diamond nanophotonics platform for quantum-optical networks

Fiber-Coupled Diamond Quantum Nanophotonic Interface

Fiber-integrated nanophotonic networks in bulk single-crystal diamond substrates (Conference Presentation)

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