Internal gas composition and pressure in as-drawn hollow core optical fibers
Internal gas composition and pressure in as-drawn hollow core optical fibers
We present a study into the gas pressure and composition within a hollow core optical fiber immediately after fabrication. Results from three different experimental techniques indicate that the initial absolute pressure inside of the hollow core is significantly lower than atmospheric pressure. By measuring the equilibrium height to which water ingresses into the hollow core, we estimate the absolute internal gas pressure to be 20 kPa < Pi < 29 kPa for the fibers reported here that were fabricated using standard techniques. The initial gas composition within the hollow core was studied using Raman and absorption spectroscopy and the evolution of the gas composition provides indirect information about the condition of the silica surfaces inside the fiber. The measurements indicate that these internal surfaces become saturated with atmospheric water vapor as this is drawn into the open-ended fiber, initially due to a pressure gradient post-fabrication. Our findings are an essential foundation for the study of long-term optical and mechanical performance of hollow core fibers and important for accurate characterization of these specialty fibers. The first is becoming increasingly important as commercial applications of these fibers expand.
Glass, optical fiber applications, optical fiber measurements, optical fibers
4776-4785
Rikimi, Shuichiro
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Chen, Yong
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Kelly, Thomas W.
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Davidson, Ian A.
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Jasion, Gregory T.
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Partridge, Matthew
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Harrington, Kerrianne
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Bradley, Thomas D.
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Taranta, Austin A.
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Poletti, Francesco
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Petrovich, Marco N.
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Richardson, David J.
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Wheeler, Natalie V.
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5 April 2022
Rikimi, Shuichiro
a2432579-b2fe-4131-8061-30c681e25576
Chen, Yong
0bfb3083-4cd2-4463-a7a4-f48c4158b15a
Kelly, Thomas W.
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Davidson, Ian A.
b685f949-e9e4-4e6b-9a59-36739de06a61
Jasion, Gregory T.
16cfff1d-d178-41d1-a092-56e6239726b8
Partridge, Matthew
6c60ec7a-7378-4221-ab72-ddba90591bf3
Harrington, Kerrianne
1078f503-d24f-40b0-a4ba-d5a5c0cff0bf
Bradley, Thomas D.
d4cce4f3-bb69-4e14-baee-cd6a88e38101
Taranta, Austin A.
bc2e834f-0d85-44a1-a874-8150df1f73d9
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Petrovich, Marco N.
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Richardson, David J.
ebfe1ff9-d0c2-4e52-b7ae-c1b13bccdef3
Wheeler, Natalie V.
0fd34178-a77b-4c71-a3a6-86a1f634f1a0
Rikimi, Shuichiro, Chen, Yong, Kelly, Thomas W., Davidson, Ian A., Jasion, Gregory T., Partridge, Matthew, Harrington, Kerrianne, Bradley, Thomas D., Taranta, Austin A., Poletti, Francesco, Petrovich, Marco N., Richardson, David J. and Wheeler, Natalie V.
(2022)
Internal gas composition and pressure in as-drawn hollow core optical fibers.
Journal of Lightwave Technology, 40 (14), .
(doi:10.1109/JLT.2022.3164810).
Abstract
We present a study into the gas pressure and composition within a hollow core optical fiber immediately after fabrication. Results from three different experimental techniques indicate that the initial absolute pressure inside of the hollow core is significantly lower than atmospheric pressure. By measuring the equilibrium height to which water ingresses into the hollow core, we estimate the absolute internal gas pressure to be 20 kPa < Pi < 29 kPa for the fibers reported here that were fabricated using standard techniques. The initial gas composition within the hollow core was studied using Raman and absorption spectroscopy and the evolution of the gas composition provides indirect information about the condition of the silica surfaces inside the fiber. The measurements indicate that these internal surfaces become saturated with atmospheric water vapor as this is drawn into the open-ended fiber, initially due to a pressure gradient post-fabrication. Our findings are an essential foundation for the study of long-term optical and mechanical performance of hollow core fibers and important for accurate characterization of these specialty fibers. The first is becoming increasingly important as commercial applications of these fibers expand.
Text
Internal_Gas_Composition_and_Pressure_in_As-drawn_Hollow_Core_Optical_Fibers
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More information
Accepted/In Press date: 29 March 2022
Published date: 5 April 2022
Keywords:
Glass, optical fiber applications, optical fiber measurements, optical fibers
Identifiers
Local EPrints ID: 470436
URI: http://eprints.soton.ac.uk/id/eprint/470436
ISSN: 0733-8724
PURE UUID: 12befd1f-0b35-407d-9c86-67bea0bb6f60
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Date deposited: 11 Oct 2022 16:31
Last modified: 17 Mar 2024 03:40
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Contributors
Author:
Shuichiro Rikimi
Author:
Thomas W. Kelly
Author:
Ian A. Davidson
Author:
Gregory T. Jasion
Author:
Matthew Partridge
Author:
Kerrianne Harrington
Author:
Thomas D. Bradley
Author:
Austin A. Taranta
Author:
Francesco Poletti
Author:
Marco N. Petrovich
Author:
Natalie V. Wheeler
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