Raman amplification at 2.2 μm in silicon core fibers with prospects for extended mid-infrared source generation
Raman amplification at 2.2 μm in silicon core fibers with prospects for extended mid-infrared source generation
Raman scattering provides a convenient mechanism to generate or amplify light at wavelengths where gain is not otherwise available. When combined with recent advancements in high-power fiber lasers that operate at wavelengths ~2 μm, great opportunities exist for Raman systems that extend operation further into the mid-infrared regime for applications such as gas sensing, spectroscopy, and biomedical analyses. Here, a thulium-doped fiber laser is used to demonstrate Raman emission and amplification from a highly nonlinear silicon core fiber (SCF) platform at wavelengths beyond 2 μm. The SCF has been tapered to obtain a micrometer-sized core diameter (~1.6 μm) over a length of 6 cm, with losses as low as 0.2 dB cm−1. A maximum on-off peak gain of 30.4 dB was obtained using 10 W of peak pump power at 1.99 μm, with simulations indicating that the gain could be increased to up to ~50 dB by extending the SCF length. Simulations also show that by exploiting the large Raman gain and extended mid-infrared transparency of the SCF, cascaded Raman processes could yield tunable systems with practical output powers across the 2–5 μm range.
Huang, Meng
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Sun, Shiyu
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Saini, Than S
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Fu, Qiang
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Xu, Lin
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Wu, Dong
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Ren, Haonan
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Shen, Li
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W. Hawkins, Thomas
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Ballato, John
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Peacock, Anna
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30 August 2023
Huang, Meng
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Sun, Shiyu
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Saini, Than S
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Fu, Qiang
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Xu, Lin
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Wu, Dong
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Ren, Haonan
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Shen, Li
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W. Hawkins, Thomas
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Ballato, John
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Peacock, Anna
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Huang, Meng, Sun, Shiyu, Saini, Than S, Fu, Qiang, Xu, Lin, Wu, Dong, Ren, Haonan, Shen, Li, W. Hawkins, Thomas, Ballato, John and Peacock, Anna
(2023)
Raman amplification at 2.2 μm in silicon core fibers with prospects for extended mid-infrared source generation.
Light: Science and Applications, 12 (1), [209].
(doi:10.1038/s41377-023-01250-y).
Abstract
Raman scattering provides a convenient mechanism to generate or amplify light at wavelengths where gain is not otherwise available. When combined with recent advancements in high-power fiber lasers that operate at wavelengths ~2 μm, great opportunities exist for Raman systems that extend operation further into the mid-infrared regime for applications such as gas sensing, spectroscopy, and biomedical analyses. Here, a thulium-doped fiber laser is used to demonstrate Raman emission and amplification from a highly nonlinear silicon core fiber (SCF) platform at wavelengths beyond 2 μm. The SCF has been tapered to obtain a micrometer-sized core diameter (~1.6 μm) over a length of 6 cm, with losses as low as 0.2 dB cm−1. A maximum on-off peak gain of 30.4 dB was obtained using 10 W of peak pump power at 1.99 μm, with simulations indicating that the gain could be increased to up to ~50 dB by extending the SCF length. Simulations also show that by exploiting the large Raman gain and extended mid-infrared transparency of the SCF, cascaded Raman processes could yield tunable systems with practical output powers across the 2–5 μm range.
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Raman amplification at 2.2 μm in silicon core fibers with prospects for extend mid-infrared source
More information
Accepted/In Press date: 8 August 2023
Published date: 30 August 2023
Additional Information:
Funding Information:
We would like to acknowledge support from the following funding bodies: A.C.P.—Engineering and Physical Sciences Research Council (EPSRC, EP/P000940/1); Q.F.—EPSRC (EP/P027644/1); J.B. and T.W.H.—J.E. Sirrine Foundation; L.S.—National Natural Science Foundation of China (62175080); M.H.—Chinese Scholarships Council.
Publisher Copyright:
© 2023, Changchun Institute of Optics, Fine Mechanics and Physics (CIOMP), CAS.
Identifiers
Local EPrints ID: 481118
URI: http://eprints.soton.ac.uk/id/eprint/481118
ISSN: 2095-5545
PURE UUID: 53b8a33a-2b35-420e-bd1c-e8695a0f5c1e
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Date deposited: 16 Aug 2023 16:32
Last modified: 10 Sep 2024 02:09
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Contributors
Author:
Meng Huang
Author:
Shiyu Sun
Author:
Than S Saini
Author:
Qiang Fu
Author:
Lin Xu
Author:
Dong Wu
Author:
Haonan Ren
Author:
Li Shen
Author:
Thomas W. Hawkins
Author:
John Ballato
Author:
Anna Peacock
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