Follow-up x-ray telescope (FXT) mirror module for the Einstein probe mission

Astronomical Telescopes + Instrumentation Pub Date : 2022-08-31 DOI:10.1117/12.2630147

D. Vernani, G. Bianucci, G. Grisoni, F. Marioni, G. Valsecchi, A. Keereman, Yong Chen, Min Cong, Yanji Yang, Juan Wang, V. Burwitz, J. Eder, P. Friedrich, G. Hartner, A. Langmeier, Thomas Mueller, S. Rukdee, T. Schmidt

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引用次数: 1

Abstract

The Einstein Probe (EP) is a mission of the Chinese Academy of Sciences (CAS) dedicated to time-domain high-energy astrophysics. Its primary goals are to discover high-energy transients and monitor variable objects. The ESA Science Programme Committee (SPC) approved on 19 June 2018 the participation of ESA to the CAS EP mission as a mission of opportunity. Among other elements, CAS has requested ESA participation for the provision of the mirror modules of the follow-up x-ray telescope (FXT). FXT is a pair of Wolter-I telescopes operating in the 0.5-10 keV energy range, inheriting the design from eROSITA [2][3]. It provides field of view of about 1 deg diameter. The source localization error will be of 5-15 arcsec depending on the source strength [1]. The FXT is responsible for the quick follow-up observations of the triggered sources and will also observe other interested targets during the all-sky survey at the rest time. Three FXT mirror modules were produced: structural and thermal model (STM), qualification model (QM) and flight model (FM). Media Lario could leverage on the manufacturing and integration infrastructure still available at its premises from the eROSITA programme [3][4], including the complete set of 54 mandrels needed for the mirror repliforming, property of MPE. Media Lario produced and integrated the FXT mirror modules, each comprising 54 nested repliformed mirror shells; Max-Planck Institute (MPE) conducted the x-ray optical tests at the PANTER facility, for the acceptance of all the different models. This efficient collaboration enabled the on-time and in-quality delivery of the FXT mirror modules.

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用于爱因斯坦探测任务的后续x射线望远镜(FXT)镜像模块

爱因斯坦探测器(EP)是中国科学院(CAS)致力于时域高能天体物理学的一项任务。它的主要目标是发现高能瞬态和监测可变物体。欧空局科学计划委员会(SPC)于2018年6月19日批准欧空局作为机会任务参与CAS EP任务。除其他因素外，中国科学院已要求欧空局参与提供后续x射线望远镜的反射镜模块。FXT是一对Wolter-I望远镜，工作在0.5-10 keV能量范围内，继承了eROSITA[2][3]的设计。它提供了大约1度直径的视野。根据震源强度的不同，震源定位误差在5-15弧秒之间[1]。FXT负责对触发源的快速跟踪观测，并将在全天巡天的剩余时间对其他感兴趣的目标进行观测。制造了三种FXT反射镜模块:结构和热模型(STM)、鉴定模型(QM)和飞行模型(FM)。Media Lario可以利用其场所中eROSITA项目[3][4]中仍然可用的制造和集成基础设施，包括镜像重组所需的全套54个芯棒，这是MPE的属性。Media Lario生产并集成了FXT镜像模块，每个模块包括54个嵌套的重组镜像壳;马克斯-普朗克研究所(MPE)在PANTER设施进行了x射线光学测试，以接受所有不同的模型。这种高效的协作使得FXT镜像模块能够按时、高质量地交付。

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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Astronomical Telescopes + Instrumentation

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