Laser-jet device with direct input of radiation into a liquid beamguide

N. A. Gryaznov; D. A. Goryachkin; E. N. Sosnov; S. V. Titov; K. Yu. Senchik

doi:10.1364/JOT.85.000752

Journal of Optical Technology
Vol. 85,
Issue 12,
pp. 752-759
(2018)
•https://doi.org/10.1364/JOT.85.000752

Laser-jet device with direct input of radiation into a liquid beamguide

N. A. Gryaznov, D. A. Goryachkin, E. N. Sosnov, S. V. Titov, and K. Yu. Senchik

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N. A. Gryaznov, D. A. Goryachkin, E. N. Sosnov, S. V. Titov, and K. Yu. Senchik, "Laser-jet device with direct input of radiation into a liquid beamguide," J. Opt. Technol. 85, 752-759 (2018)

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Abstract

This paper discusses a device for implementing the well-known principle of canalization of laser radiation into a thin laminar liquid jet (a beamguide) that serves as a medium for delivering radiation to an object and a cooling medium. A stable laminar liquid jet with a fairly large diameter of 0.3–0.8 mm is used at a flow velocity of about 10 m/s, along with a new principle by which laser radiation is directly introduced into the jet from a quartz optical fiber into the liquid beamguide. As a result, the input device can be made simple, compact, flexible, and mobile. With radiation power of up to 4 W delivered along the jet, it was demonstrated that it is possible to fine-process sheet polystyrene, as well as to dissect models of hematopoietic biological tissues with no scorching or carbonization of the seam or the adjacent regions.

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Journal of Optical Technology