Monitoring and characterization of particle contamination in the pulse compression chamber of the OMEGA EP laser system

IF 5.2 1区 物理与天体物理 Q1 OPTICS High Power Laser Science and Engineering Pub Date : 2023-04-20 DOI:10.1017/hpl.2023.34
B. Hoffman, N. Savidis, S. Demos
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引用次数: 2

Abstract

Abstract The laser-damage performance of optics is known to be negatively affected by microscale particle contamination induced by the operational environment. This work investigates the properties of particles accumulating in various locations near critical optics inside the OMEGA EP grating compressor chamber during quarterly operational periods over a 2-year duration. The particles found were characterized using optical microscopy, scanning electron microscopy and energy dispersive X-ray spectroscopy. The analysis indicates significant concentrations of micrometer- to nanometer-scale particles inside the vacuum chamber, with higher values observed near the port leading to the OMEGA EP target chamber. The distribution of the chemical composition of these particles varies between collection periods. Although understanding of the mechanisms of particle generation and transport remains uncertain, the hypothesis is that this particle load represents a risk for contaminating the surfaces of high-value optics located inside the chamber, including the compression gratings and deformable mirrors, and therefore affecting their laser-damage resistance and overall operational lifetime.
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欧米茄EP激光系统脉冲压缩室中粒子污染的监测与表征
摘要光学器件的激光损伤性能受到操作环境引起的微尺度粒子污染的负面影响。这项工作研究了在2年的季度运行期间,欧米茄EP光栅压缩室内关键光学元件附近不同位置积累的粒子的性质。利用光学显微镜、扫描电子显微镜和能量色散x射线能谱对所发现的粒子进行了表征。分析表明,真空室内微米至纳米级颗粒的浓度显著增加,在通往OMEGA EP靶室的端口附近观察到更高的浓度。这些颗粒的化学成分的分布在不同的收集期有所不同。虽然对颗粒产生和传输机制的理解仍然不确定,但假设这种颗粒负载可能会污染位于腔室内的高价值光学元件表面,包括压缩光栅和可变形镜,从而影响其抗激光损伤性和整体使用寿命。
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来源期刊
High Power Laser Science and Engineering
High Power Laser Science and Engineering Physics and Astronomy-Nuclear and High Energy Physics
CiteScore
7.10
自引率
4.20%
发文量
401
审稿时长
21 weeks
期刊介绍: High Power Laser Science and Engineering (HPLaser) is an international, peer-reviewed open access journal which focuses on all aspects of high power laser science and engineering. HPLaser publishes research that seeks to uncover the underlying science and engineering in the fields of high energy density physics, high power lasers, advanced laser technology and applications and laser components. Topics covered include laser-plasma interaction, ultra-intense ultra-short pulse laser interaction with matter, attosecond physics, laser design, modelling and optimization, laser amplifiers, nonlinear optics, laser engineering, optical materials, optical devices, fiber lasers, diode-pumped solid state lasers and excimer lasers.
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