High-speed ablation of crystalline silicon by femtosecond laser BiBurst mode with GHz burst in MHz burst

Kotaro Obata; Francesc Caballero-Lucas; Shota Kawabata; Shota Kawabata; Godai Miyaji; Koji Sugioka

doi:10.1364/CLEOPR.2022.CThP5D_02

Proceedings of the 2022 Conference on Lasers and Electro-Optics Pacific Rim
Technical Digest Series (Optica Publishing Group, 2022),
paper CThP5D_02
•https://doi.org/10.1364/CLEOPR.2022.CThP5D_02

High-speed ablation of crystalline silicon by femtosecond laser BiBurst mode with GHz burst in MHz burst

Kotaro Obata, Francesc Caballero-Lucas, Shota Kawabata, Godai Miyaji, and Koji Sugioka

Conference on Lasers and Electro-Optics/Pacific Rim 2022

Sapporo Japan
31 August–5 September 2022
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Surface Micromachining and Nanostructuring (CThP5D)

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K. Obata, F. Caballero-Lucas, S. Kawabata, G. Miyaji, and K. Sugioka, "High-speed ablation of crystalline silicon by femtosecond laser BiBurst mode with GHz burst in MHz burst," in Proceedings of the 2022 Conference on Lasers and Electro-Optics Pacific Rim, Technical Digest Series (Optica Publishing Group, 2022), paper CThP5D_02.

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Abstract

We demonstrate highly efficient ablation of silicon by use of BiBurst mode, which is composed of GHz bursts in MHz bursts. Ablation by the conventional irradiation scheme of femtosecond laser pulses (single-mode) generates detrimental damage on the ablated surface due to air ionization at the intensity above a critical value. In contrast, the BiBurst mode ablation can prevent the air ionization at the input power equal to or even higher than the single-mode due to lower intra-pulse intensities. Thus, BiBurst mode can achieve 23 times ablation speed without degrading the ablation quality compared to that by the single-mode ablation under the conditions that avoid the air ionization.

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