Widely-tunable operation of a thulium doped fiber laser between 1654 nm and 2025 nm
Widely-tunable operation of a thulium doped fiber laser between 1654 nm and 2025 nm
Thulium (Tm) doped silica has a wide fluorescence emission band spanning the wavelength range from ~1600 nm to 2200 nm making it an attractive laser gain media with a wide range of applications. However, due to the increasingly three-level nature of the Tm transition below 1900 nm, it becomes more challenging to operate towards the shorter wavelength end of the emission band. This problem can be alleviated by combining in-band pumping with an erbium (Er) fibre laser with a core-pumped laser configuration. In previous work, Shen et al demonstrated tunability from 1723 nm to 1973 nm at >1 W power levels in a Tm-doped alumino-silicate fibre laser [1]. Wider tunability (from 1679 nm to 1992 nm) for a watt-level Tm fibre laser has only beenachieved by employing Tm-doped germano-silicate fibre, which benefits from reduced signal absorption below 1800 nm and thus blue-shifted net gain [2]. Here we present a Tm-doped alumino-silicate fibre laser with a tuning range of 371 nm, from 1654 nm to 2025 nm, which represents the widest tuning range reported to date for a Tm-doped silica fibre laser.
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Burns, Mark
7f7ca346-f31a-46cf-a848-acb4bcae18b9
Clarkson, W.A.
3b060f63-a303-4fa5-ad50-95f166df1ba2
Shardlow, Peter
9ca17301-8ae7-4307-8bb9-371df461520c
21 May 2021
Burns, Mark
7f7ca346-f31a-46cf-a848-acb4bcae18b9
Clarkson, W.A.
3b060f63-a303-4fa5-ad50-95f166df1ba2
Shardlow, Peter
9ca17301-8ae7-4307-8bb9-371df461520c
Burns, Mark, Clarkson, W.A. and Shardlow, Peter
(2021)
Widely-tunable operation of a thulium doped fiber laser between 1654 nm and 2025 nm.
In CLEO Europe.
OSA..
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Conference or Workshop Item
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Abstract
Thulium (Tm) doped silica has a wide fluorescence emission band spanning the wavelength range from ~1600 nm to 2200 nm making it an attractive laser gain media with a wide range of applications. However, due to the increasingly three-level nature of the Tm transition below 1900 nm, it becomes more challenging to operate towards the shorter wavelength end of the emission band. This problem can be alleviated by combining in-band pumping with an erbium (Er) fibre laser with a core-pumped laser configuration. In previous work, Shen et al demonstrated tunability from 1723 nm to 1973 nm at >1 W power levels in a Tm-doped alumino-silicate fibre laser [1]. Wider tunability (from 1679 nm to 1992 nm) for a watt-level Tm fibre laser has only beenachieved by employing Tm-doped germano-silicate fibre, which benefits from reduced signal absorption below 1800 nm and thus blue-shifted net gain [2]. Here we present a Tm-doped alumino-silicate fibre laser with a tuning range of 371 nm, from 1654 nm to 2025 nm, which represents the widest tuning range reported to date for a Tm-doped silica fibre laser.
& more...
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Published date: 21 May 2021
Venue - Dates:
CLEO 2021, Virtual, 2021-05-09 - 2021-05-14
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Local EPrints ID: 454781
URI: http://eprints.soton.ac.uk/id/eprint/454781
PURE UUID: 8898e028-84fc-4d2b-83a4-ae4a76ae3fd3
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Date deposited: 23 Feb 2022 17:36
Last modified: 17 Mar 2024 03:27
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Author:
Mark Burns
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