Design, integration, and test of the scientific payloads on-board the HERMES constellation and the SpIRIT mission

Y. Evangelista, F. Fiore, R. Campana, F. Ceraudo, Giovanni Della Casa, E. Demenev, G. Dilillo, M. Fiorini, M. Grassi, A. Guzmán, P. Hedderman, E. Marchesini, G. Morgante, F. Mele, P. Nogara, A. Nuti, R. Piazzolla, Samuel Pliego Caballero, I. Rashevskaya, F. Russo, G. Sottile, C. Labanti, Giulia Baroni, P. Bellutti, G. Bertuccio, Jiewei Cao, Tianxiang Chen, I. Dedolli, M. Feroci, F. Fuschino, M. Gandola, N. Gao, F. Ficorella, P. Malcovati, A. Picciotto, A. Rachevski, A. Santangelo, C. Tenzer, A. Vacchi, Lingjun Wang, Yupeng Xu, G. Zampa, N. Zampa, N. Zorzi
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引用次数: 2

Abstract

HERMES (high energy rapid modular ensemble of satellites) is a space-borne mission based on a constellation of nano-satellites flying in a low-Earth orbit (LEO). The six 3U CubeSat buses host new miniaturized instruments hosting a hybrid silicon drift detector/GAGG:Ce scintillator photodetector system sensitive to x-rays and gamma-rays. HERMES will probe the temporal emission of bright high-energy transients such as gamma-ray bursts (GRBs), ensuring a fast transient localization (with arcmin-level accuracy) in a field of view of several steradians exploiting the triangulation technique. With a foreseen launch date in late 2023, HERMES transient monitoring represents a keystone capability to complement the next generation of gravitational wave experiments. Moreover, the HERMES constellation will operate in conjunction with the space industry responsive intelligent thermal (SpIRIT) 6U CubeSat, to be launched in early 2023. SpIRIT is an Australian-Italian mission for high-energy astrophysics that will carry in a sun-synchronous orbit (SSO) an actively cooled HERMES detector system payload. On behalf of the HERMES collaboration, in this paper we will illustrate the HERMES and SpIRIT payload design, integration and tests, highlighting the technical solutions adopted to allow a wide-energy-band and sensitive x-ray and gamma-ray detector to be accommodated in a 1U CubeSat volume.
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赫尔墨斯星座和勇气号任务上的科学有效载荷的设计、集成和测试
HERMES(高能快速模块化卫星集成)是一项基于在低地球轨道(LEO)飞行的纳米卫星星座的星载任务。6个3U CubeSat总线承载了新的小型化仪器,其中包含对x射线和伽马射线敏感的混合硅漂移探测器/GAGG:Ce闪烁体光电探测器系统。HERMES将探测伽马射线暴(GRBs)等明亮的高能瞬态的时间发射,确保在利用三角测量技术的几个立体线视野内快速定位(具有弧平级精度)。预计发射日期为2023年底,HERMES瞬态监测代表了补充下一代引力波实验的关键能力。此外,HERMES星座将与航天工业响应智能热(SpIRIT) 6U立方体卫星一起运行,该卫星将于2023年初发射。“勇气”号是澳大利亚和意大利联合进行的高能天体物理学任务,将在太阳同步轨道(SSO)上携带主动冷却的HERMES探测器系统有效载荷。在本文中,我们将代表HERMES合作,说明HERMES和SpIRIT有效载荷的设计、集成和测试,重点介绍采用的技术解决方案,使宽波段和敏感的x射线和伽马射线探测器能够容纳在1U立方体卫星体积中。
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