Seiji Yoshida , Masahito Isshiki , Ken'ichi Kanao , Shoji Tsunematsu , Kiyomi Otsuka , Syou Mizunuma , Yoh Takei , Akio Hoshino , Ryuichi Fujimoto , Yuichiro Ezoe , Kosuke Sato , Michael DiPirro , Peter Shirron
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引用次数: 0
摘要
X 射线成像和光谱学飞行任务(XRISM)是日本宇宙航空研究开发机构(JAXA) 和美国国家航空航天局(NASA)开发的一颗 X 射线天文学卫星,目的是探索宇宙的演 变及其物理现象,以取代 ASTRO-H。XRISM 的主要科学仪器之一是利用 X 射线微量热仪阵列的 "决心 "号。该探测器阵列需要通过一个复杂的低温系统冷却到 50 mK,该系统包括一个由 NASA 开发的多级绝热消磁制冷器(ADR)和一个由住友重机械有限公司(SHI)开发的低温系统。(SHI)开发的低温系统。低温系统需要在轨道上将 ADR 的散热器冷却到 1.5 K 以下的温度至少 3 年。为满足具体要求,我们开发了一种混合低温系统,由一个液氦罐、一个 4K 焦耳-汤姆森冷却器和两个两级斯特林冷却器组成。结果,地面试验验证了具体要求。本文介绍了 "决心 "号仪器氦气杜瓦的设计(包括与 ASTRO-H 相比的主要变化)、制造和地面测试结果。
Performance test results of a helium Dewar for the Resolve instrument onboard the XRISM
The X-ray imaging and spectroscopy mission (XRISM) is an X-ray astronomy satellite developed by the Japan Aerospace Exploration Agency (JAXA) and the National Aeronautics and Space Administration (NASA) to explore the evolution of the universe and its physical phenomena as the replacement for ASTRO-H. One of the primary scientific instruments of the XRISM is the Resolve, which utilizes an X-ray microcalorimeter array. This detector array is required to be cooled down to 50 mK using a complex cryogenic system with a multistage adiabatic demagnetization refrigerator (ADR) developed by NASA and a cryogenic system developed by Sumitomo Heavy Industries, Ltd. (SHI). The cryogenic system is required to cool the heat sink of the ADR to a temperature below 1.5 K in orbit for at least 3 years. To meet the specific requirements, we developed a hybrid cryogenic system consisting of a liquid helium tank, a 4K Joule–Thomson cooler, and two two-stage Stirling coolers. As a result, the specific requirements were verified by ground tests. This paper describes the design, including the major changes from ASTRO-H, fabrication, and results of the ground tests of the helium Dewar of the Resolve instrument.
期刊介绍:
Cryogenics is the world''s leading journal focusing on all aspects of cryoengineering and cryogenics. Papers published in Cryogenics cover a wide variety of subjects in low temperature engineering and research. Among the areas covered are:
- Applications of superconductivity: magnets, electronics, devices
- Superconductors and their properties
- Properties of materials: metals, alloys, composites, polymers, insulations
- New applications of cryogenic technology to processes, devices, machinery
- Refrigeration and liquefaction technology
- Thermodynamics
- Fluid properties and fluid mechanics
- Heat transfer
- Thermometry and measurement science
- Cryogenics in medicine
- Cryoelectronics
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