具有主动冷却和加热功能的保波前X射线镜的自适应形状控制

Adaptive shape control of wavefront-preserving X-ray mirrors with active cooling and heating.

作者信息

Cocco Daniele, Hardin Corey, Morton Daniel, Lee Lance, Ng May Ling, Zhang Lin, Assoufid Lahsen, Grizolli Walan, Shi Xianbo, Walko Donald A, Cutler Grant, Goldberg Kenneth A, Wojdyla Antoine, Idir Mourad, Huang Lei, Dovillaire Guillaume

出版信息

Opt Express. 2020 Jun 22;28(13):19242-19254. doi: 10.1364/OE.394310.

DOI:10.1364/OE.394310

PMID:32672205

Abstract

This article describes the development and testing of a novel, water-cooled, active optic mirror system (called "REAL: Resistive Element Adjustable Length") that combines cooling with applied auxiliary heating, tailored to the spatial distribution of the thermal load generated by the incident beam. This technique is theoretically capable of sub-nanometer surface figure error control even at high power density. Tests conducted in an optical metrology laboratory and at synchrotron X-ray beamlines showed the ability to maintain the mirror profile to the level needed for the next generation storage rings and FEL mirrors.

摘要

本文介绍了一种新型水冷有源光学镜系统（称为“REAL：电阻元件可调长度”）的开发和测试，该系统将冷却与外加辅助加热相结合，以适应入射光束产生的热负载的空间分布。该技术理论上即使在高功率密度下也能实现亚纳米级的表面形状误差控制。在光学计量实验室和同步加速器X射线光束线上进行的测试表明，该系统能够将镜面轮廓保持在下一代存储环和自由电子激光镜所需的水平。

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具有主动冷却和加热功能的保波前X射线镜的自适应形状控制

Adaptive shape control of wavefront-preserving X-ray mirrors with active cooling and heating.

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