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9 December 2004 Laser drilling and routing in optical fibers and tapered micropipettes using excimer, femtosecond, and CO2 lasers
Alain Cournoyer, Dimitry Antonov, Luc Levesque, Daniel Cantin, Marc Levesque
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Proceedings Volume 5578, Photonics North 2004: Photonic Applications in Astronomy, Biomedicine, Imaging, Materials Processing, and Education; (2004) https://doi.org/10.1117/12.566975
Event: Photonics North, 2004, Ottawa, Ontario, Canada
Abstract
We used an excimer laser (193 nm), a femtosecond laser (775 nm) and a CO2 laser (10.6 µm) to drill cylindrical holes in fused silica optical fibers and in glass micro-pipettes. CO2 laser-drilling using tip processing results in tapered holes with larger diameters than the holes drilled with the excimer and the femtosecond laser. Although routing of holes of various shapes results in sharper edges and a higher aspect ratio when the femtosecond laser is used, the CO2 laser could still be used to route rectangular holes in fused silica optical fibers. Albeit hole dimensions and details are smaller when micromachined with the excimer and the femtosecond lasers, the optical fibers are very brittle at the end of the process. CO2 lasers offer the advantage of producing higher fused silica ablation rates with much better polished surfaces and a better mechanical integrity, which are usually more suitable in some applications.
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Alain Cournoyer, Dimitry Antonov, Luc Levesque, Daniel Cantin, and Marc Levesque "Laser drilling and routing in optical fibers and tapered micropipettes using excimer, femtosecond, and CO2 lasers", Proc. SPIE 5578, Photonics North 2004: Photonic Applications in Astronomy, Biomedicine, Imaging, Materials Processing, and Education, (9 December 2004); https://doi.org/10.1117/12.566975
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KEYWORDS
Laser drilling
Gas lasers
Optical fibers
Laser processing
Femtosecond phenomena
Silica
Carbon monoxide
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