国际空间站量热电子望远镜(CALET)的现状与性能

O. Adriani , Y. Akaike , Y. Asaoka , K. Asano , M.G. Bagliesi , G. Bigongiari , W.R. Binns , M. Bongi , J.H. Buckley , A. Cassese , G. Castellini , M.L. Cherry , G. Collazuol , K. Ebisawa , V. Di Felice , H. Fuke , T.G. Guzik , T. Hams , N. Hasebe , M. Hareyama , T. Yuda
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引用次数: 5

摘要

日本目前正在与意大利和美国合作开发的量热电子望远镜空间实验将在国际空间站(国际空间站)为期两年的任务期间测量20 TeV的宇宙射线电子(包括正电子)的通量,10 TeV的伽马射线和Z=1至40至1,000 TeV的原子核的通量,可延长至5年。这些测量对于寻找暗物质特征,研究宇宙射线在银河系中的加速和传播机制以及发现地球附近高能电子的可能天体物理来源至关重要。该仪器由用于宇宙射线电荷识别(CHD)的两层分段塑料闪烁体、一个3辐射长度厚的钨闪烁光纤成像量热计(IMC)和一个27辐射长度厚的钨酸铅量热计(TASC)组成。CALET具有足够的深度,成像能力和出色的能量分辨率,可以清晰地分离强子和电子以及带电粒子和伽马射线。该仪器将在2014日本财政年度(2015年3月底)发射到国际空间站,并安装在日本实验舱暴露设施(JEM-EF)上。在本文中,我们将回顾任务的现状和主要科学目标,并描述仪器的配置和性能。
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Status and performance of the CALorimetric Electron Telescope (CALET) on the International Space Station

The CALorimetric Electron Telescope (CALET) space experiment, currently under development by Japan in collaboration with Italy and the United States, will measure the flux of cosmic-ray electrons (including positrons) to 20 TeV, gamma rays to 10 TeV and nuclei with Z=1 to 40 up to 1,000 TeV during a two-year mission on the International Space Station (ISS), extendable to five years. These measurements are essential to search for dark matter signatures, investigate the mechanism of cosmic-ray acceleration and propagation in the Galaxy and discover possible astrophysical sources of high-energy electrons nearby the Earth. The instrument consists of two layers of segmented plastic scintillators for the cosmic-ray charge identification (CHD), a 3 radiation length thick tungsten-scintillating fiber imaging calorimeter (IMC) and a 27 radiation length thick lead-tungstate calorimeter (TASC). CALET has sufficient depth, imaging capabilities and excellent energy resolution to allow for a clear separation between hadrons and electrons and between charged particles and gamma rays. The instrument will be launched to the ISS within 2014 Japanese Fiscal Year (by the end of March 2015) and installed on the Japanese Experiment Module-Exposed Facility (JEM-EF). In this paper, we will review the status and main science goals of the mission and describe the instrument configuration and performance.

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Contents Editorial Board Author index Hybrid Simulations of Particle Acceleration at Shocks Using optical lines to study particle acceleration at supernova remnants
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