The development of the mirror for the Athena x-ray mission

M. Collon, Luis Abalo, N. Barrière, A. Bayerle, Luigi Castiglione, Noë Eenkhoorn, D. Girou, R. Günther, Enrico Hauser, Roy van der Hoeven, Jasper den Hollander, Yvette Jenkins, B. Landgraf, L. Keek, Ben Okma, Paulo da Silva Ribeiro, Chris Rizzos, A. Thete, G. Vacanti, S. Verhoeckx, M. Vervest, R. Visser, L. Voruz, M. Bavdaz, E. Wille, I. Ferreira, M. Olde Riekerink, J. Haneveld, Arenda Koelewijn, Maurice Wijnperlé, J. Lankwarden, B. Schurink, R. Start, C. van Baren, J. D. den Herder, E. Handick, M. Krumrey, V. Burwitz, S. Massahi, D. Ferreira, S. Svendsen, F. Christensen, William Mundon, G. Phillips
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引用次数: 5

Abstract

Athena is the European Space Agency’s next flagship x-ray telescope, scheduled for launch in the 2030s. Its 2.5-m diameter mirror will be segmented and comprise more than 600 individual Silicon Pore Optics (SPO) grazing-incidence-angle imagers, called mirror modules. Arranged in concentric annuli and following a Wolter-Schwartzschild design, the mirror modules are made of several tens of primary-secondary mirror pairs, each mirror made of mono-crystalline silicon, coated to increase the collective area of the system, and shaped to bring the incoming photons to a common focus 12 m away. Aiming to deliver a half-energy width of 5”, and an effective area of about 1.4 m2 at 1 keV, the Athena mirror requires several hundred m2 of super-polished surfaces with a roughness of about 0.3 nm and a thickness of just 110 µm. SPO, using the highest-grade double-side polished 300 mm wafers commercially available, were invented for this purpose and have been consistently developed over the last several years to enable next-generation x-ray telescopes like Athena. SPO makes it possible to manufacture cost-effective, high-resolution, large-area x-ray optics by using all the advantages that mono-crystalline silicon and the mass production processes of the semiconductor industry provide. Ahead of important programmatic milestones for Athena, we present the status of the technology, and illustrate not only recent x-ray results but also the progress made on the environmental testing, manufacturing and assembly aspects of the technology.
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为雅典娜x射线任务研制的反射镜
雅典娜是欧洲航天局的下一个旗舰x射线望远镜,计划于本世纪30年代发射。其直径2.5米的镜面将被分割,并由600多个独立的硅孔光学(SPO)掠入射角成像仪组成,称为镜面模块。按照Wolter-Schwartzschild的设计,镜子模块由几十对主次镜组成,每个镜子由单晶硅制成,涂覆以增加系统的集合面积,并形成将入射光子带到12米外的共同焦点。雅典娜反射镜的目标是提供5英寸的半能宽度,在1 keV下的有效面积约为1.4平方米,需要数百平方米的超抛光表面,粗糙度约为0.3纳米,厚度仅为110微米。SPO采用最高等级的双面抛光300毫米晶圆,是为此目的而发明的,并在过去几年中不断发展,使雅典娜等下一代x射线望远镜成为可能。SPO利用单晶硅和半导体工业提供的大规模生产工艺的所有优势,使制造具有成本效益、高分辨率、大面积的x射线光学器件成为可能。在雅典娜的重要规划里程碑之前,我们介绍了该技术的现状,不仅说明了最近的x射线结果,还说明了该技术在环境测试、制造和组装方面取得的进展。
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