T. Thibert, L. Jacques, G. Terrasa, E. Lallemand, G. Rauw, C. Kintziger
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引用次数: 0
Abstract
The Athena mission in general and the x-ray integral field unit (X-IFU) instrument in particular are designed to address a wealth of scientific questions related to the science theme of the hot and energetic universe. X-IFU provides medium spatial resolution and high resolving power by means of a calorimetric detector. As the X-IFU detector needs to be operated at 50mK, the instrument is contained in a dewar. The aperture cylinder consists of a set of structural and thermal elements that carry and position at correct distances from the detector the first three dewar thermal filters, provide adequate thermal interfaces and protect the filters from contamination. In this paper, we present the Phase A-B1 contribution of Centre Spatial de Liège (CSL) to the X-IFU consortium. This summarizes to the elaboration of a baseline design for the aperture cylinder, and several demonstration models as a de-risking activity with the intent to increase the aperture cylinder maturity.
一般来说,雅典娜任务和x射线积分场单元(X-IFU)仪器的设计是为了解决与热和高能宇宙的科学主题相关的大量科学问题。X-IFU通过量热检测器提供中等空间分辨率和高分辨率。由于X-IFU探测器需要在50mK下工作,所以仪器被装在杜瓦瓶中。孔径圆柱体由一组结构和热元件组成,它们携带并放置在与探测器正确距离的前三个杜瓦热过滤器,提供足够的热界面并保护过滤器免受污染。在本文中,我们介绍了Centre Spatial de li (CSL)对X-IFU联盟的A-B1期贡献。这总结为孔径柱的基线设计的阐述,以及几个示范模型作为降低风险的活动,旨在提高孔径柱的成熟度。
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