Extreme ultraviolet spectroscopy of CU cylindrical wire arrays on zebra at UNR

E. Petkov, M. Weller, A. Safronova, V. Kantsyrev, A. Esaulov, I. Shrestha, G. Osborne, A. Stafford, V. V. Shlyapsteva, S. Keim, C. Coverdale
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Abstract

Extreme ultraviolet (EUV) radiation from z-pinch plasma sources has been shown to play a substantial role in the evolution of z-pinches, contributing significant amounts of radiation in the wire ablation, stagnation, and plasma expansion phases. Recent studies of Cu z-pinch plasmas from cylindrical wire arrays have also shown that high temperatures (up to 450 eV) exist in precursor plasmas, which have applications to inertial confinement fusion. The final expansion phase has shown that substantial EUV radiation continues even after the main x-ray bursts. In this work, EUV data were analyzed with the goal of understanding how the bulk cooler plasma might represent the main contribution to the total radiative output from z-pinch plasmas. In particular, a comparison and analysis of EUV data generated by two plasma sources is shown: the first set of experiments used Cu cylindrical wire arrays on the 1.0 MA Zebra generator at UNR. In addition to EUV data, x-ray data is also analyzed which shows dominant emission of Cu XX ions. The second set used Cu flat targets and was performed at the compact laser-plasma x-ray/EUV facility “Sparky” at UNR, which is used as a unique line calibration source. Moreover, spectral data generated by Sparky generally show more and better resolved lines. Cu L-shell lines in the range of 120-160 Å, specifically CuX to CuXIII ions, are identified. To help with the identification of lines, a non-local thermodynamic equilibrium (non-LTE) kinetic model was utilized and was also used to determine plasma parameters, such as electron temperature and density. Future studies will focus on attaining time-gated EUV spectra in order to better understand its role in the evolution of z-pinch plasmas.
UNR斑马上CU圆柱线阵列的极紫外光谱分析
来自z-pinch等离子体源的极紫外(EUV)辐射在z-pinch的演变中发挥了重要作用,在导线烧蚀,停滞和等离子体膨胀阶段贡献了大量的辐射。最近对圆柱形线阵列的Cu - z-pinch等离子体的研究也表明,前体等离子体中存在高温(高达450 eV),这可以应用于惯性约束聚变。最后的膨胀阶段表明,即使在主要的x射线爆发之后,大量的EUV辐射仍在继续。在这项工作中,分析了EUV数据,目的是了解体冷等离子体如何代表z夹缩等离子体总辐射输出的主要贡献。特别地,对两种等离子体源产生的EUV数据进行了比较和分析:第一组实验使用Cu圆柱线阵列在UNR的1.0 MA Zebra发生器上进行。除了EUV数据外,还分析了x射线数据,显示Cu XX离子的主要发射。第二组使用Cu平靶,在UNR的紧凑型激光等离子体x射线/EUV设备“Sparky”上进行,该设备被用作独特的线校准源。此外,Sparky生成的光谱数据通常显示更多和更好的分辨线。在120 ~ 160 Å范围内的Cu l -壳线,特别是CuX ~ CuXIII离子。为了帮助识别谱线,使用了非局部热力学平衡(non-local thermodynamics equilibrium, non-LTE)动力学模型,并用于确定等离子体参数,如电子温度和密度。未来的研究将集中在获得时间门控的EUV光谱上,以便更好地了解它在z-pinch等离子体演化中的作用。
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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