Alexander Franke, Nils Sültmann, Christoph Reinhardt, Sandy Croatto, Jörn Schaffran, Hossein Masalehdan, Axel Lindner and Roman Schnabel
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引用次数: 0
Abstract
Proposals for next-generation gravitational wave observatories include cryogenically cooled 200 kg test mass mirrors suspended from pendulums and made of a crystalline material such as crystalline silicon. During operation of the observatories, these mirrors undergo heating due to the absorption of laser radiation of up to a watt. Low noise cooling techniques need to be developed. Low-pressure helium exchange gas at 5 K might contribute to the challenging task. Here, we report the measurement of the helium accommodation coefficient , which is the probability that a helium atom thermalises with a surface at a given temperature when reflected from it. We find for temperatures K, which increases the cooling power compared to recently used assumptions. The idea of free molecular flow helium gas cooling is thus supported and might find application in some observatory concepts.
关于下一代引力波观测站的建议包括悬挂在摆锤上的 200 千克低温冷却试验质量反射镜,这些反射镜由晶体硅等晶体材料制成。在天文台运行期间,这些反射镜会因吸收高达一瓦特的激光辐射而发热。因此需要开发低噪音冷却技术。5 K 的低压氦交换气体可能有助于完成这项具有挑战性的任务。在此,我们报告了氦容纳系数的测量结果,即在给定温度下,氦原子从表面反射时与表面热合的概率。我们发现,与最近使用的假设相比,温度为 K 的氦原子的冷却能力增加了。因此,自由分子流氦气冷却的观点得到了支持,并有可能在某些观测概念中得到应用。
期刊介绍:
Classical and Quantum Gravity is an established journal for physicists, mathematicians and cosmologists in the fields of gravitation and the theory of spacetime. The journal is now the acknowledged world leader in classical relativity and all areas of quantum gravity.