C. Alispach, A. Araudo, M. Balbo, V. Beshley, A. Biland, J. Blažek, J. Borkowski, T. Bulik, F. Cadoux, S. Casanova, A. Christov, J. Chudoba, L. Chytka, P. Dědič, D. della Volpe, Y. Favre, M. Garczarczyk, L. Gibaud, T. Gieras, P. Hamal, M. Heller, M. Hrabovský, P. Janeček, M. Jelínek, V. Jílek, J. Juryšek, V. Karas, B. Lacave, E. Lyard, E. Mach, D. Mandát, W. Marek, S. Michal, J. Michałowski, R. Moderski, T. Montaruli, A. Muraczewski, S. Muthyala, A. L. Müller, A. Nagai, K. Nalewajski, D. Neise, J. Niemiec, M. Nikołajuk, V. Novotný, M. Ostrowski, M. Palatka, M. Pech, M. Prouza, P. Rajda, P. Schovanek, K. Seweryn, V. Sliusar, Ł. Stawarz, R. Sternberger, M. Stodulska, J. Świerblewski, P. Świerk, J. Štrobl, T. Tavernier, P. Trávníček, I. Troyano Pujadas, J. Vícha, R. Walter, K. Zietara
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Zietara","doi":"arxiv-2409.11310","DOIUrl":null,"url":null,"abstract":"The SST-1M is a Small-Sized Telescope (SST) designed to provide a\ncost-effective and high-performance solution for gamma-ray astrophysics,\nparticularly for energies beyond a few TeV. The goal is to integrate this\ntelescope into an array of similar instruments, leveraging its lightweight\ndesign, earthquake resistance, and established Davies-Cotton configuration.\nAdditionally, its optical system is designed to function without a protective\ndome, allowing it to withstand the harsh atmospheric conditions typical of\nmountain environments above 2000 m. The SST-1M utilizes a fully digitizing\ncamera system based on silicon photomultipliers (SiPMs). This camera is capable\nof digitizing all signals from the UV-optical light detectors, allowing for the\nimplementation of various triggers and data analysis methods. We detail the\nprocess of designing, prototyping, and validating this system, ensuring that it\nmeets the stringent requirements for gamma-ray detection and performance. An\nSST-1M stereo system is currently operational and collecting data at the\nOnd\\v{r}ejov observatory in the Czech Republic, situated at 500 m. Preliminary\nresults from this system are promising. A forthcoming paper will provide a\ncomprehensive analysis of the performance of the telescopes in detecting gamma\nrays and operating under real-world conditions.","PeriodicalId":501163,"journal":{"name":"arXiv - PHYS - Instrumentation and Methods for Astrophysics","volume":"29 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-09-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The SST-1M imaging atmospheric Cherenkov telescope for gamma-ray astrophysics\",\"authors\":\"C. Alispach, A. Araudo, M. Balbo, V. 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引用次数: 0
摘要
SST-1M 是一种小型望远镜(SST),旨在为伽马射线天体物理学,特别是为超过几 TeV 的能量提供低成本、高性能的解决方案。其目标是将该望远镜集成到一系列类似仪器中,充分利用其轻巧的设计、抗震性和成熟的戴维斯-棉花配置。此外,其光学系统的设计可以在没有保护罩的情况下工作,使其能够承受 2000 米以上山区环境中典型的恶劣大气条件。该相机能够将紫外光-光学探测器发出的所有信号数字化,从而可以使用各种触发器和数据分析方法。我们详细介绍了这一系统的设计、原型制作和验证过程,确保它符合伽马射线探测和性能方面的严格要求。目前,一个SST-1M立体系统正在捷克共和国的Ond\v{r}ejov天文台运行并收集数据,该天文台位于500米高空。即将发表的一篇论文将全面分析望远镜在探测伽马射线和在实际条件下工作的性能。
The SST-1M imaging atmospheric Cherenkov telescope for gamma-ray astrophysics
The SST-1M is a Small-Sized Telescope (SST) designed to provide a
cost-effective and high-performance solution for gamma-ray astrophysics,
particularly for energies beyond a few TeV. The goal is to integrate this
telescope into an array of similar instruments, leveraging its lightweight
design, earthquake resistance, and established Davies-Cotton configuration.
Additionally, its optical system is designed to function without a protective
dome, allowing it to withstand the harsh atmospheric conditions typical of
mountain environments above 2000 m. The SST-1M utilizes a fully digitizing
camera system based on silicon photomultipliers (SiPMs). This camera is capable
of digitizing all signals from the UV-optical light detectors, allowing for the
implementation of various triggers and data analysis methods. We detail the
process of designing, prototyping, and validating this system, ensuring that it
meets the stringent requirements for gamma-ray detection and performance. An
SST-1M stereo system is currently operational and collecting data at the
Ond\v{r}ejov observatory in the Czech Republic, situated at 500 m. Preliminary
results from this system are promising. A forthcoming paper will provide a
comprehensive analysis of the performance of the telescopes in detecting gamma
rays and operating under real-world conditions.
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