Quantum optics of soliton microcombs

Quantum optics of soliton microcombs

Soliton microcombs -- phase-locked microcavity frequency combs -- have become the foundation of several classical technologies in integrated photonics, including spectroscopy, LiDAR, and optical computing. Despite the predicted multimode entanglement across the comb, experimental study of the quantu...

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Veröffentlicht in:arXiv.org 2021-03
Hauptverfasser: Guidry, Melissa A, Lukin, Daniil M, Yang, Ki Youl, Trivedi, Rahul, Vučković, Jelena
Format: Artikel
Sprache:eng
Schlagworte:
Coherent light
Correlation analysis
Entanglement
Physics - Optics
Physics - Quantum Physics
Quantum optics
Silicon carbide
Solitary waves
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Zusammenfassung:Soliton microcombs -- phase-locked microcavity frequency combs -- have become the foundation of several classical technologies in integrated photonics, including spectroscopy, LiDAR, and optical computing. Despite the predicted multimode entanglement across the comb, experimental study of the quantum optics of the soliton microcomb has been elusive. In this work, we use second-order photon correlations to study the underlying quantum processes of soliton microcombs in an integrated silicon carbide microresonator. We show that a stable temporal lattice of solitons can isolate a multimode below-threshold Gaussian state from any admixture of coherent light, and predict that all-to-all entanglement can be realized for the state. Our work opens a pathway toward a soliton-based multimode quantum resource.
ISSN:2331-8422
DOI:10.48550/arxiv.2103.10517