Hans G. Rinderknecht, G. Bruhaug, V. Muşat, G. Gregori, H. Poole, D. Bishel, D. A. Chin, J. R. Rygg, G. W. Collins
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引用次数: 0
摘要
研究了基于电子束的康普顿散射X射线源的物理基础,以便在主要的高能量密度设施(如欧米茄激光设施、国家点火设施和Z脉冲功率设施)上进行单发实验。通过23-53MeV电子束对短脉冲光学激光的散射,并对散射光子进行准直,可以产生10-50keV的单能量(δε/ε<5%)X射线源。散射光子的数量和光谱是根据电子包电荷、电子和激光脉冲持续时间、激光强度以及碰撞几何形状的函数计算得出的。利用现有的电子枪和激光技术,可以在半径为 1 毫米的光斑中产生超过 1010 个光子,时间分辨率为 100ps。介绍了这种光源在高能量密度物理实验中的 X 射线衍射、X 射线成像、X 射线吸收精细结构和 X 射线吸收光谱等方面的应用,展示了与目前技术水平相比的显著进步。
Electron-beam-based Compton scattering x-ray source for probing high-energy-density physics
The physics basis for an electron-beam-based Compton scattering x-ray source is investigated for single-shot experiments at the major high-energy-density facilities, such as the Omega Laser Facility, National Ignition Facility, and pulsed power facility. A source of monoenergetic () 10- to 50-keV x rays can be produced by scattering of a short-pulse optical laser by a 23- to 53-MeV electron beam and collimating the scattered photons. The number and spectrum of scattered photons are calculated as a function of electron packet charge, electron and laser pulse duration, laser intensity, and collision geometry. A source delivering greater than photons in a 1-mm-radius spot and 100-ps time resolution is plausible with the available electron gun and laser technology. Applications of this source for x-ray diffraction, x-ray imaging, x-ray absorption fine structure, and x-ray absorption spectroscopy in high-energy-density physics experiments are described, demonstrating significant advancements compared to the present state of the art.
期刊介绍:
Physical Review Special Topics - Accelerators and Beams (PRST-AB) is a peer-reviewed, purely electronic journal, distributed without charge to readers and funded by sponsors from national and international laboratories and other partners. The articles are published by the American Physical Society under the terms of the Creative Commons Attribution 3.0 License.
It covers the full range of accelerator science and technology; subsystem and component technologies; beam dynamics; accelerator applications; and design, operation, and improvement of accelerators used in science and industry. This includes accelerators for high-energy and nuclear physics, synchrotron-radiation production, spallation neutron sources, medical therapy, and intense-beam applications.
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