Distributed measurement of gas pressure in the core of hollow-core optical fibres using nonlinear optics
Distributed measurement of gas pressure in the core of hollow-core optical fibres using nonlinear optics
We investigate theoretically and numerically the use of nonlinear optics to measure the spatial distribution of the gas density in the core of antiresonant hollow-core optical fibres. Short pump and signal laser pulses at different wavelengths and with controlled delay are launched into the fibre. Due to their different group velocity, they overlap within a certain region of the fibre where their nonlinear interaction create an idler pulse (via four-wave mixing) and/or the signal pulse experiences a nonlinear phase shift induced by the pump pulse via cross phase modulation. As the optical nonlinearity in these fibres is dominated by the gas content, a measurement of the idler power or signal phase shift at the fibre output thus provides information about the gas density (its pressure) at the pulse overlap position. We discuss the feasibility of the scheme and its dependence on fibre and pulse parameters. We conclude that such distributed gas measurements are possible within current experimental parameters and can potentially measure pressures far below current experimental techniques with high spatial resolution.
52587-52599
Gerrard, Mitchell
4e6006b3-d48f-44c7-8d4e-b9072fc67678
Slavík, Radan
2591726a-ecc0-4d1a-8e1d-4d0fd8da8f7d
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
4 December 2025
Gerrard, Mitchell
4e6006b3-d48f-44c7-8d4e-b9072fc67678
Slavík, Radan
2591726a-ecc0-4d1a-8e1d-4d0fd8da8f7d
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Gerrard, Mitchell, Slavík, Radan and Horak, Peter
(2025)
Distributed measurement of gas pressure in the core of hollow-core optical fibres using nonlinear optics.
Optics Express, 33 (25), .
(doi:10.1364/OE.580378).
Abstract
We investigate theoretically and numerically the use of nonlinear optics to measure the spatial distribution of the gas density in the core of antiresonant hollow-core optical fibres. Short pump and signal laser pulses at different wavelengths and with controlled delay are launched into the fibre. Due to their different group velocity, they overlap within a certain region of the fibre where their nonlinear interaction create an idler pulse (via four-wave mixing) and/or the signal pulse experiences a nonlinear phase shift induced by the pump pulse via cross phase modulation. As the optical nonlinearity in these fibres is dominated by the gas content, a measurement of the idler power or signal phase shift at the fibre output thus provides information about the gas density (its pressure) at the pulse overlap position. We discuss the feasibility of the scheme and its dependence on fibre and pulse parameters. We conclude that such distributed gas measurements are possible within current experimental parameters and can potentially measure pressures far below current experimental techniques with high spatial resolution.
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Submitted date: 26 September 2025
Accepted/In Press date: 24 November 2025
Published date: 4 December 2025
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Journal © 2025.
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Local EPrints ID: 508323
URI: http://eprints.soton.ac.uk/id/eprint/508323
ISSN: 1094-4087
PURE UUID: acd69ec9-edc0-4ee7-88b9-16e195f3fbd5
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Date deposited: 16 Jan 2026 18:09
Last modified: 17 Jan 2026 03:39
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Author:
Mitchell Gerrard
Author:
Radan Slavík
Author:
Peter Horak
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