Profile control of fibre-based micro-mirrors using adaptive laser shooting with in-situ imaging
Profile control of fibre-based micro-mirrors using adaptive laser shooting with in-situ imaging
Fiber Fabry-Perot cavities (FFPCs) are used in various studies in cavity quantum electrodynamics (CQED) and quantum technologies due to the cavity’s small mode volume and compact integration with optical fibers. We develop a novel CO 2 laser machining method that produces well-controlled surface profiles on the end facets of cleaved optical fibers. Using multiple shots in distinct spatial distribution patterns, our method employs a shooting algorithm that adaptively changes laser ablation parameters during the shooting to suppress deviations from the desired profile. This is made possible by in situ imaging of the machined profile, its inspection, and the usage of the information in the subsequent steps. Underlying this algorithm is a newly found laser ablation parameter, the pause between shots, which controls the accumulation of heat in between successive laser shots, and as a result, determines the area of impact made by an individual ablation sequence. We fabricate fiber-based micro-mirrors with radii of curvature ranging from 250 µm to 700 µm with an effective mirror diameter of 60 µm in either Gaussian or spherical profiles. Due to the self-correcting nature of our adaptive algorithm, we achieve a near 100% success rate in the production of desired profiles with low ellipticity. After furnishing the laser-machined fiber end facets with high reflectivity coating, FFPCs are formed to demonstrate a high finesse up to 150,000 at an optical wavelength of 854 nm.
39009-39022
Gao, Shaobo
b95de507-9546-43c4-a58e-1b9e88d7158a
Kavungal, Vishnu
e98e0df8-0561-4178-8902-4b8516edaa3b
Oya, Shuma
f22f1e77-e5cd-4c92-a33c-53f09cfb2914
Okuno, Daichi
a707029d-f91b-499c-bce6-61d665da3ebe
Kassa, Ezra
32e212da-b391-4a42-8cac-f02089a3951d
Hughes, William J.
79b1b23d-0485-439e-a173-27d42c7f9910
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Takahashi, Hiroki
e99a9c08-70c6-483d-92de-df73fa6722b0
5 September 2025
Gao, Shaobo
b95de507-9546-43c4-a58e-1b9e88d7158a
Kavungal, Vishnu
e98e0df8-0561-4178-8902-4b8516edaa3b
Oya, Shuma
f22f1e77-e5cd-4c92-a33c-53f09cfb2914
Okuno, Daichi
a707029d-f91b-499c-bce6-61d665da3ebe
Kassa, Ezra
32e212da-b391-4a42-8cac-f02089a3951d
Hughes, William J.
79b1b23d-0485-439e-a173-27d42c7f9910
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Takahashi, Hiroki
e99a9c08-70c6-483d-92de-df73fa6722b0
Gao, Shaobo, Kavungal, Vishnu, Oya, Shuma, Okuno, Daichi, Kassa, Ezra, Hughes, William J., Horak, Peter and Takahashi, Hiroki
(2025)
Profile control of fibre-based micro-mirrors using adaptive laser shooting with in-situ imaging.
Optics Express, 33 (18), .
(doi:10.1364/OE.564341).
Abstract
Fiber Fabry-Perot cavities (FFPCs) are used in various studies in cavity quantum electrodynamics (CQED) and quantum technologies due to the cavity’s small mode volume and compact integration with optical fibers. We develop a novel CO 2 laser machining method that produces well-controlled surface profiles on the end facets of cleaved optical fibers. Using multiple shots in distinct spatial distribution patterns, our method employs a shooting algorithm that adaptively changes laser ablation parameters during the shooting to suppress deviations from the desired profile. This is made possible by in situ imaging of the machined profile, its inspection, and the usage of the information in the subsequent steps. Underlying this algorithm is a newly found laser ablation parameter, the pause between shots, which controls the accumulation of heat in between successive laser shots, and as a result, determines the area of impact made by an individual ablation sequence. We fabricate fiber-based micro-mirrors with radii of curvature ranging from 250 µm to 700 µm with an effective mirror diameter of 60 µm in either Gaussian or spherical profiles. Due to the self-correcting nature of our adaptive algorithm, we achieve a near 100% success rate in the production of desired profiles with low ellipticity. After furnishing the laser-machined fiber end facets with high reflectivity coating, FFPCs are formed to demonstrate a high finesse up to 150,000 at an optical wavelength of 854 nm.
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resubmitted_564341
- Accepted Manuscript
Text
oe-33-18-39009
- Version of Record
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Submitted date: 9 April 2025
Accepted/In Press date: 12 August 2025
Published date: 5 September 2025
Identifiers
Local EPrints ID: 505551
URI: http://eprints.soton.ac.uk/id/eprint/505551
ISSN: 1094-4087
PURE UUID: a717e93f-8526-465a-94c4-2f73e1085298
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Date deposited: 13 Oct 2025 17:01
Last modified: 14 Oct 2025 02:16
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Contributors
Author:
Shaobo Gao
Author:
Vishnu Kavungal
Author:
Shuma Oya
Author:
Daichi Okuno
Author:
Ezra Kassa
Author:
William J. Hughes
Author:
Peter Horak
Author:
Hiroki Takahashi
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