Simple method for determining quantum efficiency and background propagation loss in thulium-doped fibres
Simple method for determining quantum efficiency and background propagation loss in thulium-doped fibres
A method for determining the quantum efficiency and background propagation loss in rare earth-doped silica fibres is presented. These parameters can be determined using straightforward measurements of slope efficiency and emission spectra at various lengths of active fibre. This method has been applied to a thulium-doped silica fibre with a structured ‘nested-ring’ doping profile. The quantum efficiency of this fibre was 1.93 ± 0.01 and the background propagation loss was 0.15 ± 0.01 dB/m. This characterisation method also allows the relative impact of these parameters on the slope efficiency of an all fibre high-power system to be predicted. It was found that the non-ideal background propagation loss of this fibre results in a decrease of ∼ 18 percentage points on the predicted slope efficiency, whereas the quantum efficiency results in a decrease of ∼ 3 percentage points. The predicted slope efficiency with respect to absorbed pump power of 62 ± 2% for the all-fibre high-power system is consistent with the experimental result of 61.5%. This characterisation provides feedback to the fibre design and fabrication that for efficient power scaling, efforts to decrease the background propagation loss of this fibre can provide a greater increase in efficiency than efforts to further increase the quantum efficiency.
Buckthorpe, Martin P.
18af650a-3b3a-4830-9976-9f34062a487b
Clarkson, W. Andrew
3b060f63-a303-4fa5-ad50-95f166df1ba2
19 August 2023
Buckthorpe, Martin P.
18af650a-3b3a-4830-9976-9f34062a487b
Clarkson, W. Andrew
3b060f63-a303-4fa5-ad50-95f166df1ba2
Buckthorpe, Martin P. and Clarkson, W. Andrew
(2023)
Simple method for determining quantum efficiency and background propagation loss in thulium-doped fibres.
Applied Physics B: Lasers and Optics, 129 (9), [142].
(doi:10.1007/s00340-023-08084-x).
Abstract
A method for determining the quantum efficiency and background propagation loss in rare earth-doped silica fibres is presented. These parameters can be determined using straightforward measurements of slope efficiency and emission spectra at various lengths of active fibre. This method has been applied to a thulium-doped silica fibre with a structured ‘nested-ring’ doping profile. The quantum efficiency of this fibre was 1.93 ± 0.01 and the background propagation loss was 0.15 ± 0.01 dB/m. This characterisation method also allows the relative impact of these parameters on the slope efficiency of an all fibre high-power system to be predicted. It was found that the non-ideal background propagation loss of this fibre results in a decrease of ∼ 18 percentage points on the predicted slope efficiency, whereas the quantum efficiency results in a decrease of ∼ 3 percentage points. The predicted slope efficiency with respect to absorbed pump power of 62 ± 2% for the all-fibre high-power system is consistent with the experimental result of 61.5%. This characterisation provides feedback to the fibre design and fabrication that for efficient power scaling, efforts to decrease the background propagation loss of this fibre can provide a greater increase in efficiency than efforts to further increase the quantum efficiency.
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s00340-023-08084-x
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Accepted/In Press date: 31 July 2023
Published date: 19 August 2023
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© 2023, The Author(s).
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Local EPrints ID: 481398
URI: http://eprints.soton.ac.uk/id/eprint/481398
ISSN: 0946-2171
PURE UUID: 51dbd279-479e-4078-af20-da1f0aa62e7c
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Date deposited: 25 Aug 2023 16:34
Last modified: 06 Jun 2024 02:09
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Author:
Martin P. Buckthorpe
Author:
W. Andrew Clarkson
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