On-target delivery of intense ultrafast laser pulses through hollow-core anti-resonant fibers
On-target delivery of intense ultrafast laser pulses through hollow-core anti-resonant fibers
We report the flexible on-target delivery of 800 nm wavelength, 5 GW peak power, 40 fs duration laser pulses through an evacuated and tightly coiled 10 m long hollow-core nested anti-resonant fiber by positively chirping the input pulses to compensate for the anomalous dispersion of the fiber. Near-transform-limited output pulses with high beam quality and a guided peak intensity of 3 PW/cm2 were achieved by suppressing plasma effects in the residual gas by pre-pumping the fiber with laser pulses after evacuation. This appears to cause a long-term removal of molecules from the fiber core. Identifying the fluence at the fiber core-wall interface as the damage origin, we scaled the coupled energy to 2.1 mJ using a short piece of larger-core fiber to obtain 20 GW at the fiber output. This scheme can pave the way towards the integration of anti-resonant fibers in mJ-level nonlinear optical experiments and laser-source development.
30227-30238
Lekosiotis, Athanasios
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Belli, Federico
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Brahms, Christian
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Sabbah, Mohammed
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Sakr, Hesham
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Davidson, Ian A.
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Poletti, Francesco
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Travers, John C.
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September 2023
Lekosiotis, Athanasios
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Belli, Federico
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Brahms, Christian
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Sabbah, Mohammed
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Sakr, Hesham
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Davidson, Ian A.
b685f949-e9e4-4e6b-9a59-36739de06a61
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Travers, John C.
78e0ca5a-24dc-4b2d-9e46-5027625b595c
Lekosiotis, Athanasios, Belli, Federico, Brahms, Christian, Sabbah, Mohammed, Sakr, Hesham, Davidson, Ian A., Poletti, Francesco and Travers, John C.
(2023)
On-target delivery of intense ultrafast laser pulses through hollow-core anti-resonant fibers.
Optics Express, 31 (19), .
(doi:10.1364/OE.496506).
Abstract
We report the flexible on-target delivery of 800 nm wavelength, 5 GW peak power, 40 fs duration laser pulses through an evacuated and tightly coiled 10 m long hollow-core nested anti-resonant fiber by positively chirping the input pulses to compensate for the anomalous dispersion of the fiber. Near-transform-limited output pulses with high beam quality and a guided peak intensity of 3 PW/cm2 were achieved by suppressing plasma effects in the residual gas by pre-pumping the fiber with laser pulses after evacuation. This appears to cause a long-term removal of molecules from the fiber core. Identifying the fluence at the fiber core-wall interface as the damage origin, we scaled the coupled energy to 2.1 mJ using a short piece of larger-core fiber to obtain 20 GW at the fiber output. This scheme can pave the way towards the integration of anti-resonant fibers in mJ-level nonlinear optical experiments and laser-source development.
Text
oe-31-19-30227
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Accepted/In Press date: 8 August 2023
e-pub ahead of print date: 29 August 2023
Published date: September 2023
Identifiers
Local EPrints ID: 502703
URI: http://eprints.soton.ac.uk/id/eprint/502703
ISSN: 1094-4087
PURE UUID: 0ebbeacb-1449-4066-9e06-cbedea9cdc57
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Date deposited: 07 Jul 2025 16:31
Last modified: 22 Aug 2025 01:57
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Contributors
Author:
Athanasios Lekosiotis
Author:
Federico Belli
Author:
Christian Brahms
Author:
Mohammed Sabbah
Author:
Hesham Sakr
Author:
Ian A. Davidson
Author:
Francesco Poletti
Author:
John C. Travers
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