Experimental and numerical study of direct sub-20fs multi-pass-cell post-compression of up to 4mJ, 80W Yb-based lasers

IF 2 3区物理与天体物理 Q3 OPTICS

Applied Physics B Pub Date : 2025-02-24 DOI:10.1007/s00340-025-08415-0

Jean-François Hergott, Fabrice Réau, Olivier Tcherbakoff, Fabien Lepetit, Nicolas Lericheux, Matthieu Guer, Hugo Marroux, Romain Géneaux, Akansha Tyagi, Romain Cazali, Pierre Nonnon, David Bresteau, Thierry Ruchon, Pascal Salières, Thierry Auguste

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引用次数: 0

Abstract

In recent years, various methods for laser pulse post-compression have demonstrated their effectiveness. Nonlinear spectral broadening, achieved by coupling an ultrafast pulse into a gas-filled multi-pass cell (MPC), typically enables pulse compression factors exceeding 20, depending on the initial pulse duration. In this work, we report the direct post-compression of four Yb-based commercial laser systems to sub-20 fs durations, with energies up to 4 mJ and initial pulse durations ranging from 320 fs to 450 fs, using argon-filled MPCs. Each MPC was specifically designed to operate at a fixed optimal point for each laser, achieving the shortest possible pulse duration. Numerical simulations reproducing the experimental data highlight the critical influence of the driver pulse’s temporal profile on the shape of the broadened spectra. These simulations are compared with the experimental results, demonstrating strong agreement.

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高达4mJ， 80W镱基激光器直接低于20fs多通芯后压缩的实验和数值研究

近年来，各种激光脉冲后压缩方法都证明了它们的有效性。非线性光谱展宽是通过将超快脉冲耦合到充满气体的多通电池（MPC）中来实现的，根据初始脉冲持续时间的不同，通常可以使脉冲压缩系数超过20。在这项工作中，我们报告了四个基于镱的商用激光系统的直接后压缩到20秒以下的持续时间，能量高达4 mJ，初始脉冲持续时间从320秒到450秒不等，使用氩气填充的MPCs。每个MPC都被专门设计为在每个激光器的固定最佳点上运行，以实现尽可能短的脉冲持续时间。再现实验数据的数值模拟突出了驱动脉冲的时间分布对加宽光谱形状的关键影响。将模拟结果与实验结果进行了比较，结果吻合较好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Physics B 物理-光学

CiteScore

4.00

自引率

4.80%

发文量

202

审稿时长

3.0 months

期刊介绍： Features publication of experimental and theoretical investigations in applied physics Offers invited reviews in addition to regular papers Coverage includes laser physics, linear and nonlinear optics, ultrafast phenomena, photonic devices, optical and laser materials, quantum optics, laser spectroscopy of atoms, molecules and clusters, and more 94% of authors who answered a survey reported that they would definitely publish or probably publish in the journal again Publishing essential research results in two of the most important areas of applied physics, both Applied Physics sections figure among the top most cited journals in this field. In addition to regular papers Applied Physics B: Lasers and Optics features invited reviews. Fields of topical interest are covered by feature issues. The journal also includes a rapid communication section for the speedy publication of important and particularly interesting results.