High speed inscription of uniform, large-area laser-induced periodic surface structures in Cr films using a high repetition rate fs laser

We report on the fabrication of laser-induced periodic surface structures in Cr films upon high repetition rate fs laser irradiation (up to 1 MHz, 500 fs, 1030 nm), employing beam scanning. Highly regular large-area (9 cm2) gratings with a relative diffraction efficiency of 42% can be produced with...

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Veröffentlicht in:	Optics letters 2014-04, Vol.39 (8), p.2491-2494
Hauptverfasser:	Ruiz de la Cruz, A, Lahoz, R, Siegel, J, de la Fuente, G F, Solis, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Beams (radiation) Chromium Irradiation Lasers Mathematical models Orientation Repetition Ripples Surface structure
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creator	Ruiz de la Cruz, A Lahoz, R Siegel, J de la Fuente, G F Solis, J
description	We report on the fabrication of laser-induced periodic surface structures in Cr films upon high repetition rate fs laser irradiation (up to 1 MHz, 500 fs, 1030 nm), employing beam scanning. Highly regular large-area (9 cm2) gratings with a relative diffraction efficiency of 42% can be produced within less than 6 min. The ripple period at moderate and high fluences is 0.9 μm, with a small period of 0.5 μm appearing at lower energies. The role of the irradiation parameters on the characteristics of the laser-induced periodic surface structures (LIPSS) is studied and discussed in the frame of the models presently used. We have identified the polarization vector orientation with respect to the scan direction as a key parameter for the fabrication of high-quality, large-area LIPSS, which, for perpendicular orientation, allows the coherent extension of the sub-wavelength structure over macroscopic distances. The processing strategy is robust in terms of broad parameter windows and applicable to other materials featuring LIPSS.
doi_str_mv	10.1364/OL.39.002491
format	Article
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subjects	Beams (radiation) Chromium Irradiation Lasers Mathematical models Orientation Repetition Ripples Surface structure
title	High speed inscription of uniform, large-area laser-induced periodic surface structures in Cr films using a high repetition rate fs laser
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