A 4H-SiC microring resonator with loaded Q of 1.9e5 produces time-bin entangled photon pairs at 1.35e7 s^-1 mW^-2, 95.55% visibility, and 94.37% fidelity.
On-chip generation of high-dimensional entangled quantum states and their coherent control,
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The roadmap reviews advances in generating and manipulating high-dimensional quantum states of light across photonic degrees of freedom and outlines common challenges for their integration into future quantum technologies.
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Integrated time-bin entangled quantum light source on a 4H-SiC microring chip
A 4H-SiC microring resonator with loaded Q of 1.9e5 produces time-bin entangled photon pairs at 1.35e7 s^-1 mW^-2, 95.55% visibility, and 94.37% fidelity.
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High-Dimensional Quantum Photonics: Roadmap
The roadmap reviews advances in generating and manipulating high-dimensional quantum states of light across photonic degrees of freedom and outlines common challenges for their integration into future quantum technologies.