Chaojie Zhang, Doug Storey, Pablo San Miguel Claveria, Zan Nie, Ken A. Marsh, Warren B. Mori, Erik Adli, Weiming An, Robert Ariniello, Gevy J. Cao, Christine Clark, Sebastien Corde, Thamine Dalichaouch, Christopher E. Doss, Claudio Emma, Henrik Ekerfelt, Elias Gerstmayr, Spencer Gessner, Claire Hansel, Alexander Knetsch, Valentina Lee, Fei Li, Mike Litos, Brendan O'Shea, Glen White, Gerry Yocky, Viktoriia Zakharova, Mark Hogan, Chan Joshi
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引用次数: 0
摘要
本研究记录了在 FACET-II 进行的等离子体汪场加速实验 E300 第一次运行期间,使用单个驱动电子束观察到的几种相关性。已建立的相关性包括:测量到的驱动电子束最大能量损失与综合贝塔电子管 X 射线信号之间的相关性、计算出的沉积在等离子体中的电子束总能量与综合 X 射线信号之间的相关性、三台可见光发射测量相机之间的相关性以及可见等离子体光与 X 射线信号之间的相关性。综合 X 射线信号与驱动光束的最大能量损失和沉积到等离子体中的能量几乎呈线性相关,这表明它可以用来测量从驱动光束到等离子体的能量转移。在相距两米的三个地点,可见等离子体光是唤醒存在的有效指标。尽管动力学过程复杂,时间尺度也大不相同,但在未来的高重复率实验中,驱动束的 X 射线辐射和等离子体的可见光发射可能会被证明是监测从束流到等离子体的能量转移的有效非侵入式诊断方法。
Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II
This study documents several correlations observed during the first run of the plasma wakefield acceleration experiment E300 conducted at FACET-II, using a single drive electron bunch. The established correlations include those between the measured maximum energy loss of the drive electron beam and the integrated betatron X-ray signal, the calculated total beam energy deposited in the plasma and the integrated X-ray signal, among three visible light emission measuring cameras and between the visible plasma light and X-ray signal. The integrated X-ray signal correlates almost linearly with both the maximum energy loss of the drive beam and the energy deposited into the plasma, demonstrating its usability as a measure of energy transfer from the drive beam to the plasma. Visible plasma light is found to be a useful indicator of the presence of a wake at three locations that overall are two metres apart. Despite the complex dynamics and vastly different time scales, the X-ray radiation from the drive bunch and visible light emission from the plasma may prove to be effective non-invasive diagnostics for monitoring the energy transfer from the beam to the plasma in future high-repetition-rate experiments.
期刊介绍:
JPP aspires to be the intellectual home of those who think of plasma physics as a fundamental discipline. The journal focuses on publishing research on laboratory plasmas (including magnetically confined and inertial fusion plasmas), space physics and plasma astrophysics that takes advantage of the rapid ongoing progress in instrumentation and computing to advance fundamental understanding of multiscale plasma physics. The Journal welcomes submissions of analytical, numerical, observational and experimental work: both original research and tutorial- or review-style papers, as well as proposals for its Lecture Notes series.