Recent experiments and advances at the high-repetition-rate attosecond beamlines of ELI ALPS

Optics + Optoelectronics Pub Date : 2023-06-08 DOI:10.1117/12.2664845

L. Gulyás Oldal, T. Csizmadia, Z. Filus, T. Grósz, M. De Marco, P. Jójárt, I. Seres, Z. Bengery, B. Gilicze, K. Varjú, S. Kahaly, B. Major

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Abstract

The High-Repetition-rate laser-driven Gas-based High-order Harmonic Generation (HR GHHG) beamlines of the Extreme Light Infrastructure Attosecond Light Pulse Source (ELI ALPS) have started their operation in the recent years. Both beamlines, one designed for gas-phase targets – the HR GHHG Gas beamline –, and one for condensed-phase samples – the HR GHHG Condensed beamline –, now provide high-flux, extreme ultraviolet (XUV) radiation with pump-probe capabilities at 100 kHz repetition rate. The HR GHHG Cond beamline is equipped with a time-compensated XUV monochromator, allowing for tuning the spectral properties while maintaining short, close to Fourier-limited pulse duration in the femtosecond regime. Cutting-edge experimental end stations are also available, for example a Reaction Microscope and a NanoESCA device. Both beamlines are past their first commissioning user experiments. In this presentation the capabilities along with some recent developments and latest experiments will be presented for these two unique attosecond sources.

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ELI ALPS高重复率阿秒光束的实验与进展

近年来，极光基础设施阿秒脉冲光源(ELI ALPS)的高重复率激光驱动气体基高次谐波产生(HR GHHG)光束线已经开始运行。这两条波束线，一条是为气相目标设计的——HR GHHG气体波束线，另一条是为冷凝相样品设计的——HR GHHG冷凝波束线，现在可以提供高通量的极紫外线(XUV)辐射，具有100 kHz重复率的泵探测能力。HR GHHG Cond光束线配备了一个时间补偿的XUV单色器，允许调整光谱特性，同时在飞秒状态下保持短，接近傅立叶限制的脉冲持续时间。尖端的实验终端站也可用，例如反应显微镜和纳米esca设备。两条光束线都已经过了首次用户试验。在本报告中，将介绍这两种独特的阿秒源的性能以及一些最新的发展和最新的实验。

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Optics + Optoelectronics

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