Squeezing at a telecom wavelength, a compact and fully guided-wave approach
We demonstrate, for the first time, the realization of an entirely guided-wave squeezing experiment at a telecom wavelength. The state generation relies on waveguide non-linear optics technology while squeezing collection and transmission are implemented by using only telecom fibre components. We ob...
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creator | Kaiser, Florian Fedrici, Bruno Zavatta, Alessandro D'Auria, Virginia Tanzilli, Sébastien |
description | We demonstrate, for the first time, the realization of an entirely guided-wave squeezing experiment at a telecom wavelength. The state generation relies on waveguide non-linear optics technology while squeezing collection and transmission are implemented by using only telecom fibre components. We observe up to \(-1.83\pm0.05\) dB of squeezing emitted at 1542 nm in CW pumping regime. The compactness and stability of the experiment, compared to free-space configurations, represent a significant step towards achieving out-of-the-lab CV quantum communication, fully compatible with existing telecom fibre networks. We believe that this work stands as a promising approach for real applications as well as for "do-it-yourself" experiments |
doi_str_mv | 10.48550/arxiv.1601.07203 |
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subjects | Compressing Nonlinear optics Optical pumping Physics - Quantum Physics Telecommunications |
title | Squeezing at a telecom wavelength, a compact and fully guided-wave approach |
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