Optimizing the generation of polarization squeezed light in nonlinear optical fibers driven by femtosecond pulses

Bright squeezed light can be generated in optical fibers utilizing the Kerr effect for ultrashort laser pulses. However, pulse propagation in a fiber is subject to nonconservative effects that deteriorate the squeezing. Here, we analyze two-mode polarization squeezing, which is SU(2)-invariant, robu...

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Published in	arXiv.org
Main Authors	Andrianov, A V, Kalinin, N A, Sorokin, A A, Anashkina, E A, Sanchez-Soto, L L, Corney, J F, Leuchs, G
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 06.01.2023
Subjects	Compressing Femtosecond pulses Kerr effects Nonlinear optics Optical fibers Optimization Perturbation Physics - Optics Physics - Quantum Physics Polarization Process parameters Pulse propagation Robustness (mathematics)
Online Access	Get full text
ISSN	2331-8422
DOI	10.48550/arxiv.2301.02454

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Abstract	Bright squeezed light can be generated in optical fibers utilizing the Kerr effect for ultrashort laser pulses. However, pulse propagation in a fiber is subject to nonconservative effects that deteriorate the squeezing. Here, we analyze two-mode polarization squeezing, which is SU(2)-invariant, robust against technical perturbations, and can be generated in a polarization-maintaining fiber. We perform a rigorous numerical optimization of the process and the pulse parameters using our advanced model of quantum pulse evolution in the fiber that includes various nonconservative effects and real fiber data. Numerical results are consistent with experimental results.
AbstractList	Optics Express 31, 765-773 (2023) Bright squeezed light can be generated in optical fibers utilizing the Kerr effect for ultrashort laser pulses. However, pulse propagation in a fiber is subject to nonconservative effects that deteriorate the squeezing. Here, we analyze two-mode polarization squeezing, which is SU(2)-invariant, robust against technical perturbations, and can be generated in a polarization-maintaining fiber. We perform a rigorous numerical optimization of the process and the pulse parameters using our advanced model of quantum pulse evolution in the fiber that includes various nonconservative effects and real fiber data. Numerical results are consistent with experimental results. Bright squeezed light can be generated in optical fibers utilizing the Kerr effect for ultrashort laser pulses. However, pulse propagation in a fiber is subject to nonconservative effects that deteriorate the squeezing. Here, we analyze two-mode polarization squeezing, which is SU(2)-invariant, robust against technical perturbations, and can be generated in a polarization-maintaining fiber. We perform a rigorous numerical optimization of the process and the pulse parameters using our advanced model of quantum pulse evolution in the fiber that includes various nonconservative effects and real fiber data. Numerical results are consistent with experimental results.
Author	Andrianov, A V Sorokin, A A Corney, J F Kalinin, N A Anashkina, E A Sanchez-Soto, L L Leuchs, G
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BackLink	https://doi.org/10.48550/arXiv.2301.02454$$DView paper in arXiv https://doi.org/10.1364/OE.481195$$DView published paper (Access to full text may be restricted)
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Snippet	Bright squeezed light can be generated in optical fibers utilizing the Kerr effect for ultrashort laser pulses. However, pulse propagation in a fiber is... Optics Express 31, 765-773 (2023) Bright squeezed light can be generated in optical fibers utilizing the Kerr effect for ultrashort laser pulses. However,...
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SubjectTerms	Compressing Femtosecond pulses Kerr effects Nonlinear optics Optical fibers Optimization Perturbation Physics - Optics Physics - Quantum Physics Polarization Process parameters Pulse propagation Robustness (mathematics)
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Title	Optimizing the generation of polarization squeezed light in nonlinear optical fibers driven by femtosecond pulses
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