Hundred-meter-scale, kilowatt peak-power, near-diffraction-limited, mid-infrared pulse delivery via the low-loss hollow-core fiber
Hundred-meter-scale, kilowatt peak-power, near-diffraction-limited, mid-infrared pulse delivery via the low-loss hollow-core fiber
We report a high-power single-mode mid-infrared (MIR) pulse delivery system via anti-resonant hollow-core fiber (HCF) with a record delivery distance of 108 m. Near-diffraction-limited MIR light was transmitted by HCFs at wavelengths of 3.12–3.58 µm using a tunable optical parametric oscillator (OPO) as the light source. The HCFs were purged beforehand with argon in order to remove or reduce loss due to parasitic gas absorption (HCl, CO2, etc.). The minimum fiber loss values were 0.05 and 0.24 dB/m at 3.4–3.6 µm and 4.5–4.6 µm, respectively, with the 4.5–4.6 µm loss figure representing, to the best of our knowledge, a new low loss record for a HCF in this spectral region. At a coupling efficiency of ∼70%, average powers of 592 mW and 133 mW were delivered through 5 m and 108 m of HCF, respectively. Assuming the 120-ps duration of the MIR pulses remained constant over the low-dispersion HCF (theoretical maximum: 0.4 ps/nm/km), the corresponding calculated peak powers were 4.9 kW and 1.1 kW.
5301-5304
Fu, Qiang
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Wu, Yudi
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Davidson, Ian A.
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Xu, Lin
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Jasion, Gregory T.
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Liang, Sijing
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Rikimi, Shuichiro
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Poletti, Francesco
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Wheeler, Natalie V.
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Richardson, David J.
ebfe1ff9-d0c2-4e52-b7ae-c1b13bccdef3
15 October 2022
Fu, Qiang
b01fb880-ccd2-4acb-8d08-0a9668bed6e6
Wu, Yudi
e7533e89-9316-44a0-9fe1-91d31ea3baf7
Davidson, Ian A.
b685f949-e9e4-4e6b-9a59-36739de06a61
Xu, Lin
b887cecd-d21e-49f4-9b45-6909a7369e84
Jasion, Gregory T.
16cfff1d-d178-41d1-a092-56e6239726b8
Liang, Sijing
2fe0bfcc-99f0-46ee-8a2e-2a7857fbfb74
Rikimi, Shuichiro
32576778-8ff3-4096-9796-ac3630342914
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Wheeler, Natalie V.
0fd34178-a77b-4c71-a3a6-86a1f634f1a0
Richardson, David J.
ebfe1ff9-d0c2-4e52-b7ae-c1b13bccdef3
Fu, Qiang, Wu, Yudi, Davidson, Ian A., Xu, Lin, Jasion, Gregory T., Liang, Sijing, Rikimi, Shuichiro, Poletti, Francesco, Wheeler, Natalie V. and Richardson, David J.
(2022)
Hundred-meter-scale, kilowatt peak-power, near-diffraction-limited, mid-infrared pulse delivery via the low-loss hollow-core fiber.
Optics Letters, 47 (20), .
(doi:10.1364/OL.473230).
Abstract
We report a high-power single-mode mid-infrared (MIR) pulse delivery system via anti-resonant hollow-core fiber (HCF) with a record delivery distance of 108 m. Near-diffraction-limited MIR light was transmitted by HCFs at wavelengths of 3.12–3.58 µm using a tunable optical parametric oscillator (OPO) as the light source. The HCFs were purged beforehand with argon in order to remove or reduce loss due to parasitic gas absorption (HCl, CO2, etc.). The minimum fiber loss values were 0.05 and 0.24 dB/m at 3.4–3.6 µm and 4.5–4.6 µm, respectively, with the 4.5–4.6 µm loss figure representing, to the best of our knowledge, a new low loss record for a HCF in this spectral region. At a coupling efficiency of ∼70%, average powers of 592 mW and 133 mW were delivered through 5 m and 108 m of HCF, respectively. Assuming the 120-ps duration of the MIR pulses remained constant over the low-dispersion HCF (theoretical maximum: 0.4 ps/nm/km), the corresponding calculated peak powers were 4.9 kW and 1.1 kW.
Text
ol-47-20-5301
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More information
Accepted/In Press date: 19 September 2022
e-pub ahead of print date: 6 October 2022
Published date: 15 October 2022
Additional Information:
Funding Information:
Engineering and Physical Sciences Research Council (EP/P027644/1, EP/P030181/1, EP/T020997/1); Royal Society; European Research Council (682724).
Publisher Copyright:
© 2022 Optica Publishing Group.
Identifiers
Local EPrints ID: 471362
URI: http://eprints.soton.ac.uk/id/eprint/471362
ISSN: 0146-9592
PURE UUID: fca40a57-b3ac-44f0-86f9-af73c84c0c0c
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Date deposited: 03 Nov 2022 18:06
Last modified: 17 Mar 2024 03:32
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Contributors
Author:
Qiang Fu
Author:
Yudi Wu
Author:
Ian A. Davidson
Author:
Lin Xu
Author:
Gregory T. Jasion
Author:
Sijing Liang
Author:
Shuichiro Rikimi
Author:
Francesco Poletti
Author:
Natalie V. Wheeler
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