激光-等离子体相互作用中3He离子束的偏振测量

Q3 Physics and Astronomy

Instruments Pub Date : 2022-10-10 DOI:10.3390/instruments6040061

Chuan Zheng, P. Fedorets, R. Engels, C. Kannis, I. Engin, S. Möller, R. Swaczyna, H. Feilbach, H. Glückler, M. Lennartz, Heinz Pfeifer, J. Pfennings, C. Schneider, N. Schnitzler, H. Soltner, M. Büscher

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引用次数: 2

摘要

我们提出了一种用于3He离子的紧凑型偏振仪，特别侧重于分析激光-等离子体相互作用过程中加速的短脉冲束。我们讨论了偏振仪的具体边界条件，如激光驱动离子束的性质，偏振仪中偏振敏感反应的选择，分析功率等值线图的表示，用于粒子识别的探测器材料的选择，以及所需氘化箔靶的制备程序。组装好的偏振仪已经使用传输非偏振3He离子束的串联加速器进行了测试，在几个MeV范围内表现出良好的性能。讨论了偏振测量的统计精度和推导出的优值，包括在激光离子源上测量光束偏振的计数率要求和精度下限。

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Polarimetry for 3He Ion Beams from Laser–Plasma Interactions

We present a compact polarimeter for 3He ions with special emphasis on the analysis of short-pulsed beams accelerated during laser–plasma interactions. We discuss the specific boundary conditions for the polarimeter, such as the properties of laser-driven ion beams, the selection of the polarization-sensitive reaction in the polarimeter, the representation of the analyzing-power contour map, the choice of the detector material used for particle identification, as well as the production procedure of the required deuterated foil-targets. The assembled polarimeter has been tested using a tandem accelerator delivering unpolarized 3He ion beams, demonstrating good performance in the few-MeV range. The statistical accuracy and the deduced figure-of-merit of the polarimetry are discussed, including the count-rate requirement and the lower limit of accuracy for beam-polarization measurements at a laser-based ion source.

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来源期刊

Instruments Physics and Astronomy-Instrumentation

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

11 weeks