High-efficiency thin-plate compression of multi-TW Ti:sapphire lasers

Zhaoli Li; Kainan Zhou; Jie Mu; Xiaodong Wang; Xiaoming Zeng; Zhaohui Wu; Xiao Wang; Yanlei Zuo

doi:10.1017/hpl.2024.86

Journals >High Power Laser Science and Engineering >Volume 12 >Issue 6 >Page 06000e97 > Article

High Power Laser Science and Engineering
Vol. 12, Issue 6, 06000e97 (2024)

High-efficiency thin-plate compression of multi-TW Ti:sapphire lasers

Zhaoli Li^1,*, Kainan Zhou^1,2, Jie Mu¹, Xiaodong Wang¹..., Xiaoming Zeng¹, Zhaohui Wu¹, Xiao Wang¹ and Yanlei Zuo¹|Show fewer author(s)

Author Affiliations

¹National Key Laboratory of Plasma Physics, Laser Fusion Research Center, China Academy of Engineering Physics, Mianyang, China

²Sichuan University, Chengdu, China

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DOI: 10.1017/hpl.2024.86 Cite this Article Set citation alerts

Zhaoli Li, Kainan Zhou, Jie Mu, Xiaodong Wang, Xiaoming Zeng, Zhaohui Wu, Xiao Wang, Yanlei Zuo, "High-efficiency thin-plate compression of multi-TW Ti:sapphire lasers," High Power Laser Sci. Eng. 12, 06000e97 (2024) Copy Citation Text

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Abstract

Nonlinear compression experiments based on multiple solid thin plates are conducted in an ultra-high peak power Ti:sapphire laser system. The incident laser pulse, with an energy of 80 mJ and a pulse width of 30.2 fs, is compressed to 10.1 fs by a thin-plate based nonlinear compression. Significant small-scale self-focusing is observed as ring structures appear in the near-field of the output pulse at high energy. Numerical simulations based on the experimental setup provide a good explanation for the observed phenomena, offering quantitative predictions of the spectrum, pulse width, dispersion and near- and far-field distributions of the compressed laser pulse.

Keywords

nonlinear compression small-scale self-focusing ultra-high peak power laser