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Monolithic 272W high efficiency Tm-doped nested-ring fibre laser

Monolithic 272W high efficiency Tm-doped nested-ring fibre laser
Monolithic 272W high efficiency Tm-doped nested-ring fibre laser

Thulium fibre lasers represent an important system in applications such as medical treatments, materials processing, remote sensing, non-linear frequency conversion, LIDAR, and defence applications [1]. High-power thulium lasers are mainly based on 790 nm cladding pumping schemes, which allow exploitation of a two-for-one cross-relaxation process with theoretical efficiency up to 80 %. However, power scaling beyond 150 W, in general, requires utilisation of LMA fibres, which suffer from lower efficiencies [2]. The nested-ring fibre was proposed to investigate the power-scaling potential of a novel non-uniform Tm doping profile employed across a small core diameter without pedestal. The confinement of Tm 3+ doping to a thin ring towards the outer edge of the fibre core reduces the spatial overlap between the propagating mode and the doped region. This allows efficient operation at the shorter wavelengths without the onset of parasitic lasing at longer wavelengths. Crucially, this design also reduces pump absorption per unit length, while still maintaining a high Tm 3+ doping concentration within the doped region of the core (4 wt. %), to allow efficient exploitation of the two-for-one cross-relaxation process. This reduces the thermal load density of the fibre, allowing for a greater power extraction before thermally-induced failure [3].

Švejkar, Richard
e22194cd-6046-4f2f-b644-af922bec55c8
Buckthorpe, Martin P.
18af650a-3b3a-4830-9976-9f34062a487b
Švejkarová, Bára
7e8ef127-f5c7-40b9-bf37-5ace5c5382c6
Shardlow, Peter C.
9ca17301-8ae7-4307-8bb9-371df461520c
Clarkson, W. Andrew
13751018-39c1-4246-81dc-6184a8ada382
Švejkar, Richard
e22194cd-6046-4f2f-b644-af922bec55c8
Buckthorpe, Martin P.
18af650a-3b3a-4830-9976-9f34062a487b
Švejkarová, Bára
7e8ef127-f5c7-40b9-bf37-5ace5c5382c6
Shardlow, Peter C.
9ca17301-8ae7-4307-8bb9-371df461520c
Clarkson, W. Andrew
13751018-39c1-4246-81dc-6184a8ada382

Švejkar, Richard, Buckthorpe, Martin P., Švejkarová, Bára, Shardlow, Peter C. and Clarkson, W. Andrew (2025) Monolithic 272W high efficiency Tm-doped nested-ring fibre laser. In 2025 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, CLEO/Europe-EQEC 2025. (doi:10.1109/cleo/europe-eqec65582.2025.11111192).

Record type: Conference or Workshop Item (Paper)

Abstract

Thulium fibre lasers represent an important system in applications such as medical treatments, materials processing, remote sensing, non-linear frequency conversion, LIDAR, and defence applications [1]. High-power thulium lasers are mainly based on 790 nm cladding pumping schemes, which allow exploitation of a two-for-one cross-relaxation process with theoretical efficiency up to 80 %. However, power scaling beyond 150 W, in general, requires utilisation of LMA fibres, which suffer from lower efficiencies [2]. The nested-ring fibre was proposed to investigate the power-scaling potential of a novel non-uniform Tm doping profile employed across a small core diameter without pedestal. The confinement of Tm 3+ doping to a thin ring towards the outer edge of the fibre core reduces the spatial overlap between the propagating mode and the doped region. This allows efficient operation at the shorter wavelengths without the onset of parasitic lasing at longer wavelengths. Crucially, this design also reduces pump absorption per unit length, while still maintaining a high Tm 3+ doping concentration within the doped region of the core (4 wt. %), to allow efficient exploitation of the two-for-one cross-relaxation process. This reduces the thermal load density of the fibre, allowing for a greater power extraction before thermally-induced failure [3].

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More information

Published date: 23 June 2025
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Identifiers

Local EPrints ID: 506645
URI: http://eprints.soton.ac.uk/id/eprint/506645
DOI: doi:10.1109/cleo/europe-eqec65582.2025.11111192
PURE UUID: 3b768441-f562-4189-a394-1b1e96dd2b67
ORCID for Richard Švejkar: ORCID iD orcid.org/0000-0002-2421-2177
ORCID for Martin P. Buckthorpe: ORCID iD orcid.org/0000-0002-0846-9685
ORCID for Peter C. Shardlow: ORCID iD orcid.org/0000-0003-0459-0581

Catalogue record

Date deposited: 12 Nov 2025 18:01
Last modified: 13 Nov 2025 03:06

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Contributors

Author: Richard Švejkar ORCID iD
Author: Martin P. Buckthorpe ORCID iD
Author: Bára Švejkarová
Author: Peter C. Shardlow ORCID iD
Author: W. Andrew Clarkson

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