Four-wave mixing control in the filamentation of ultrafast Bessel beams via longitudinal intensity-shaping

Ismail Ouadghiri-Idrissi; Remo Giust; John M. Dudley; Francois Courvoisier

2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference
(Optica Publishing Group, 2017),
paper EE_2_4

Four-wave mixing control in the filamentation of ultrafast Bessel beams via longitudinal intensity-shaping

Ismail Ouadghiri-Idrissi, Remo Giust, John M. Dudley, and Francois Courvoisier

European Quantum Electronics Conference 2017

Munich Germany
25–29 June 2017
ISBN: 978-1-5090-6736-7

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Filamentation Dynamics and THz Generation in Gases and Solids (EE_2)

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I. Ouadghiri-Idrissi, R. Giust, J. M. Dudley, and F. Courvoisier, "Four-wave mixing control in the filamentation of ultrafast Bessel beams via longitudinal intensity-shaping," in 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference, (Optica Publishing Group, 2017), paper EE_2_4.

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Abstract

Bessel beams exploit conical energy flow to yield near-uniform intensity along a line focus which has been shown to be extremely attractive for laser processing in dielectrics. At high power, however, the nonlinear Kerr effect is known to induce significant oscillations of the on-axis intensity which is deleterious for machining applications. Here, we show through theory and numerical modelling how this problem can be understood and overcome by appropriate spatial phase shaping of the input profile [1]. Our results also solve the longstanding problem related to the nonlinear Bessel beam dynamics seen at an air-dielectric interface [2].

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