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Multipartite quantum correlated bright frequency combs
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This experimental work demonstrates multipartite quantum correlation in bright frequency combs out of a microresonator integrated on silicon nitride operating above its oscillation threshold. Multipartite features, going beyond so far reported two-mode correlation, naturally arise due to a cascade of nonlinear optical processes, making a single-color laser pump sufficient to initiate their generation. Our results show the transition from two-mode to multipartite correlation, witnessed by noise reductions as low as −2.5dB and −2dB, respectively, compared to corresponding classical levels. A constant of the movement of the nonlinear interaction Hamiltonian is identified and used to asses the multipartite behavior. Reported demonstrations pave the way to next generation on-chip multipartite sources for quantum technologies applications.
Title: Multipartite quantum correlated bright frequency combs
Description:
This experimental work demonstrates multipartite quantum correlation in bright frequency combs out of a microresonator integrated on silicon nitride operating above its oscillation threshold.
Multipartite features, going beyond so far reported two-mode correlation, naturally arise due to a cascade of nonlinear optical processes, making a single-color laser pump sufficient to initiate their generation.
Our results show the transition from two-mode to multipartite correlation, witnessed by noise reductions as low as −2.
5dB and −2dB, respectively, compared to corresponding classical levels.
A constant of the movement of the nonlinear interaction Hamiltonian is identified and used to asses the multipartite behavior.
Reported demonstrations pave the way to next generation on-chip multipartite sources for quantum technologies applications.
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