采用新颖的冷却方案塑造镜面轮廓，增加高功率XFELs的光学设计灵活性(会议报告)

Adaptive X-Ray Optics V Pub Date : 2018-09-18 DOI:10.1117/12.2323216

C. Hardin, M. L. Ng, D. Morton, L. Lee, L. Zhang, D. Cocco

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引用次数: 1

摘要

随着高功率XFELs和衍射限制存储环的出现，即使在高热负荷下也需要保持亚纳米反射镜的形状。这是一个困难的问题，因为光学器件的最佳冷却设计高度依赖于反射镜上的功率足迹，这可能是高度动态的。电阻元件可调长度(REAL)冷却可以在实验过程中改变冷却参数，以适应光束参数的变化。本文介绍了LCLS L2SI项目的新型软x射线单色仪的案例研究，该单色仪利用了这种新能力，允许光束在不同的操作模式下在镜子上转换，大大简化了单色仪的力学。还将介绍原型镜的测量方法。

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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Shaping the mirror profile by using a novel cooling scheme to increase optical design flexibility in high power XFELs (Conference Presentation)

With the onset of high power XFELs and diffraction limited storage rings, there is a growing demand to maintain sub nanometer mirror figures even under high heat load. This is a difficult issue as the optimum cooling design for an optic is highly dependent on the power footprint on the mirror, which can be highly dynamic. Resistive Element Adjustable Length (REAL) cooling can be utilized to change the cooling parameters during an experiment to adapt for changing beam parameters. A case study of the new soft x-ray monochromator for the LCLS L2SI program is presented that utilizes this new capability to allow the beam to translate across the mirror for different operation modes, greatly simplifying the monochromator mechanics. Metrology of a prototype mirror will also be presented.

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Adaptive X-Ray Optics V

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