Active engineering of four-wave mixing spectral correlations in multiband hollow-core fibers
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Orieux, A
Debord, B
Gerome, F
Gorse, A
Chafer, M
Diamanti, E
Delaye, P
Benabid, F
Zaquine, I
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Abstract
We demonstrate theoretically and experimentally a high level of control of the four-wave mixing process in an inert gas–filled inhibited-coupling guiding hollow-core photonic crystal fiber. The specific multiple-branch dispersion profile in such fibers allows both correlated and separable bi-photon states to be produced. By controlling the choice of gas and its pressure and the fiber length, we experimentally generate various joint spectral intensity profiles in a stimulated regime that is transferable to the spontaneous regime. The generated profiles may cover both spectrally separable and correlated bi-photon states and feature frequency tuning over tens of THz, demonstrating a large dynamic control that will be very useful when implemented in the spontaneous regime as a photon pair source.
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OPTICS EXPRESS
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27
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7
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© 2019 Optical Society of America. Users may use, reuse, and build upon the article, or use the article for text or data mining, so long as such uses are for non-commercial purposes and appropriate attribution is maintained. All other rights are reserved.
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Atomic, molecular and optical physics
Electrical engineering
Communications engineering