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Distributed measurement and modified Navier-Stokes model of gas pressure profile evolution in hollow-core antiresonant fibres

Distributed measurement and modified Navier-Stokes model of gas pressure profile evolution in hollow-core antiresonant fibres
Distributed measurement and modified Navier-Stokes model of gas pressure profile evolution in hollow-core antiresonant fibres
Recent progress in reducing the loss of hollow-core fibres (HCFs) makes them great candidates for many fibre applications. However, as the fibre's optical properties depend on the gas pressure and composition within the core and cladding holes, it is essential to understand the gas dynamics at play when the fibres are pressurised, vented or evacuated. Here, we investigate the gas flow dynamics along the core of an HCF with a more complex microstructure design, as is typical of recent state-of-the-art HCFs. We use a novel distributed technique based on optical time-domain reflectometry (OTDR). This technique enables measurement of the evolution of the pressure distribution within the hollow core during the gas-filling process over long fibre lengths. Using these results, we show that the pressure distribution inside the HCF can be simulated using simplified Navier-Stokes equations and approximating the fibre core as a simple cylindrical tube of ∼ 0.7 times the fibre core diameter.
gas flow dynamics, hollow-core antiresonant fiber, optical fibres, gas filling, gas flow, pressure profile, GDRI, Hollow-core fibres (HCFs), optical time-domain reflectometry
1077-260X
1-10
Elistratova, Elizaveta
5b5fd0c8-9c2f-4768-9aaa-f611c0396ac5
Kelly, Thomas W.
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Davidson, Ian A.
b685f949-e9e4-4e6b-9a59-36739de06a61
Sakr, Hesham
5ec2d89f-ab6e-4690-bbfd-b95fa4cb792d
Bradley, Thomas D.
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Taranta, Austin
bc2e834f-0d85-44a1-a874-8150df1f73d9
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Slavík, Radan
2591726a-ecc0-4d1a-8e1d-4d0fd8da8f7d
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Wheeler, Natalie V.
0fd34178-a77b-4c71-a3a6-86a1f634f1a0
Taranta, Austin Acker
7eae1d1a-8e8c-4e2c-8b38-00fefa4abbff
Elistratova, Elizaveta
5b5fd0c8-9c2f-4768-9aaa-f611c0396ac5
Kelly, Thomas W.
64bf9b49-b287-4d23-8809-a2627f8d4bf2
Davidson, Ian A.
b685f949-e9e4-4e6b-9a59-36739de06a61
Sakr, Hesham
5ec2d89f-ab6e-4690-bbfd-b95fa4cb792d
Bradley, Thomas D.
d4cce4f3-bb69-4e14-baee-cd6a88e38101
Taranta, Austin
bc2e834f-0d85-44a1-a874-8150df1f73d9
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Slavík, Radan
2591726a-ecc0-4d1a-8e1d-4d0fd8da8f7d
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Wheeler, Natalie V.
0fd34178-a77b-4c71-a3a6-86a1f634f1a0
Taranta, Austin Acker
7eae1d1a-8e8c-4e2c-8b38-00fefa4abbff

Elistratova, Elizaveta, Kelly, Thomas W., Davidson, Ian A., Sakr, Hesham, Bradley, Thomas D., Taranta, Austin, Poletti, Francesco, Slavík, Radan, Horak, Peter, Wheeler, Natalie V. and Taranta, Austin Acker (2024) Distributed measurement and modified Navier-Stokes model of gas pressure profile evolution in hollow-core antiresonant fibres. IEEE Journal of Selected Topics in Quantum Electronics, 30 (6), 1-10, [4301110]. (doi:10.1109/JSTQE.2024.3397456).

Record type: Article

Abstract

Recent progress in reducing the loss of hollow-core fibres (HCFs) makes them great candidates for many fibre applications. However, as the fibre's optical properties depend on the gas pressure and composition within the core and cladding holes, it is essential to understand the gas dynamics at play when the fibres are pressurised, vented or evacuated. Here, we investigate the gas flow dynamics along the core of an HCF with a more complex microstructure design, as is typical of recent state-of-the-art HCFs. We use a novel distributed technique based on optical time-domain reflectometry (OTDR). This technique enables measurement of the evolution of the pressure distribution within the hollow core during the gas-filling process over long fibre lengths. Using these results, we show that the pressure distribution inside the HCF can be simulated using simplified Navier-Stokes equations and approximating the fibre core as a simple cylindrical tube of ∼ 0.7 times the fibre core diameter.

Text
JSTQE_special_issue_2024_final - Accepted Manuscript
Available under License Creative Commons Attribution.
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Accepted/In Press date: 2 May 2024
e-pub ahead of print date: 7 May 2024
Published date: 1 November 2024
Additional Information: Publisher Copyright: © 1995-2012 IEEE.
Keywords: gas flow dynamics, hollow-core antiresonant fiber, optical fibres, gas filling, gas flow, pressure profile, GDRI, Hollow-core fibres (HCFs), optical time-domain reflectometry
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 490056
URI: http://eprints.soton.ac.uk/id/eprint/490056
DOI: doi:10.1109/JSTQE.2024.3397456
ISSN: 1077-260X
PURE UUID: 0bdc87db-d565-42ee-82f1-2fb87f3a1b89
ORCID for Hesham Sakr: ORCID iD orcid.org/0000-0002-4154-8414
ORCID for Thomas D. Bradley: ORCID iD orcid.org/0000-0001-6568-5811
ORCID for Austin Taranta: ORCID iD orcid.org/0000-0002-5666-6800
ORCID for Francesco Poletti: ORCID iD orcid.org/0000-0002-1000-3083
ORCID for Radan Slavík: ORCID iD orcid.org/0000-0002-9336-4262
ORCID for Peter Horak: ORCID iD orcid.org/0000-0002-8710-8764
ORCID for Natalie V. Wheeler: ORCID iD orcid.org/0000-0002-1265-9510
ORCID for Austin Acker Taranta: ORCID iD orcid.org/0000-0002-5666-6800

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Date deposited: 14 May 2024 16:35
Last modified: 07 Jun 2024 01:52

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Contributors

Author: Elizaveta Elistratova
Author: Thomas W. Kelly
Author: Ian A. Davidson
Author: Hesham Sakr ORCID iD
Author: Thomas D. Bradley ORCID iD
Author: Austin Taranta ORCID iD
Author: Francesco Poletti ORCID iD
Author: Radan Slavík ORCID iD
Author: Peter Horak ORCID iD
Author: Natalie V. Wheeler ORCID iD
Author: Austin Acker Taranta ORCID iD

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