Speciality optical fibre fabricated by outside vapour deposition process
Speciality optical fibre fabricated by outside vapour deposition process
Outside Vapour Deposition process was used to demonstrate transparent and defect-free optical preforms on a wide range of glass compositions. Fabrication parameters were established for deposition, dehydration and consolidation of optical preforms using a thermodynamic analysis. Also, the drawing conditions for canes and fibres were stablished. Silica depositions were demonstrated for applications on high quality substrates or jacketing material. Fluorine-doped silica glass was fabricated with a refractive index of ~6 ×10-3 below pure silica level. A wide range of germanium-doped silica preforms were fabricated from 5 - 95%. Optical fibres ranging from SMF-like profile to a high NA and small core fibre were fabricated. 100% Germania deposition was successfully achieved and consolidated. 100% germania core rods were inserted into pure silica substrate and an ultra-high NA pre-form and fibre was achieved. A fibre Bragg grating was inscribed showing the multimode properties of this high NA fibre. Crystallisation study was carried out for Germanosilicate glasses. Aluminosilicate glass preforms were achieved via traditional and modified solution doping. Concentrations of ~20,000ppm or rare-earth ions were achieved. Large core fibres were fabricated with a small NA. Phosphosilicate glass was successfully demonstrated on passive and active preforms. Refractive index shows an ultra large core with a refractive index difference of 0.01. Co-doped germanium and phosphorous glass was successfully achieved on preforms with refractive index difference of ~0.01. Stimulated emission measurements demonstrate the successful incorporation of RE-ions into both aluminosilicate and phosphosilicate preforms showing the distribution of the dopant.
University of Southampton
Núñez-Velázquez, Martin Miguel Ángel
3c102956-ac51-4d02-9fe6-6628557cfbff
June 2018
Núñez-Velázquez, Martin Miguel Ángel
3c102956-ac51-4d02-9fe6-6628557cfbff
Sahu, Jayanta
009f5fb3-6555-411a-9a0c-9a1b5a29ceb2
Lanchester, Peter
a0c23dec-96b0-40b2-a2d7-bb394deef2e5
Núñez-Velázquez, Martin Miguel Ángel
(2018)
Speciality optical fibre fabricated by outside vapour deposition process.
University of Southampton, Doctoral Thesis, 253pp.
Record type:
Thesis
(Doctoral)
Abstract
Outside Vapour Deposition process was used to demonstrate transparent and defect-free optical preforms on a wide range of glass compositions. Fabrication parameters were established for deposition, dehydration and consolidation of optical preforms using a thermodynamic analysis. Also, the drawing conditions for canes and fibres were stablished. Silica depositions were demonstrated for applications on high quality substrates or jacketing material. Fluorine-doped silica glass was fabricated with a refractive index of ~6 ×10-3 below pure silica level. A wide range of germanium-doped silica preforms were fabricated from 5 - 95%. Optical fibres ranging from SMF-like profile to a high NA and small core fibre were fabricated. 100% Germania deposition was successfully achieved and consolidated. 100% germania core rods were inserted into pure silica substrate and an ultra-high NA pre-form and fibre was achieved. A fibre Bragg grating was inscribed showing the multimode properties of this high NA fibre. Crystallisation study was carried out for Germanosilicate glasses. Aluminosilicate glass preforms were achieved via traditional and modified solution doping. Concentrations of ~20,000ppm or rare-earth ions were achieved. Large core fibres were fabricated with a small NA. Phosphosilicate glass was successfully demonstrated on passive and active preforms. Refractive index shows an ultra large core with a refractive index difference of 0.01. Co-doped germanium and phosphorous glass was successfully achieved on preforms with refractive index difference of ~0.01. Stimulated emission measurements demonstrate the successful incorporation of RE-ions into both aluminosilicate and phosphosilicate preforms showing the distribution of the dopant.
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Nunez Velazquez 2018
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Published date: June 2018
Identifiers
Local EPrints ID: 434600
URI: http://eprints.soton.ac.uk/id/eprint/434600
PURE UUID: 727867fe-d56a-49ae-9fdb-3e0b79cd2855
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Date deposited: 02 Oct 2019 16:31
Last modified: 16 Mar 2024 07:02
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Contributors
Author:
Martin Miguel Ángel Núñez-Velázquez
Thesis advisor:
Jayanta Sahu
Thesis advisor:
Peter Lanchester
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