The Trans-Iron Galactic Element Recorder for the International Space Station (TIGERISS)

B. Rauch, N. Walsh, W. Zober
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Abstract

TIGERISS is an Ultra-Heavy Galactic Cosmic Ray (UHGCR) detector to be proposed to the NASA Astrophysics Pioneers Program capable of measuring the abundance relative to 26Fe of every element from 5B to 82Pb. It is evolved from the LDB TIGER and SuperTIGER balloon instruments and the Heavy-Nuclei Explorer SMEX, and compared to its predecessors, TIGERISS will have a greatly improved capability to definitively identify UHGCR nuclei. This has been demonstrated in component accelerator tests at CERN, including silicon strip detectors in place of scintillators. The geometry factor for TIGERISS is estimated to be from 1.1 to 1.7 m2 sr depending on the ISS attachment point, compared to 0.6 m2 sr for TIGER. Within one-year TIGERISS would observe ∼27 56Ba nuclei, a 20% statistically significant result comparable to the current SuperTIGER data set. Not requiring corrections for atmospheric interactions and scintillator saturation effects the TIGERISS results would be cleaner, and they would also make preliminary measurements to higher charges that will test models for cosmic-ray origins and acceleration. TIGERISS will measure UHGCR nuclei resulting from neutron-capture nucleosynthesis in heavy stars, supernovae, and binary neutron-star mergers and will probe the relative contribution of r-process elements to the cosmic rays.
国际空间站(TIGERISS)的跨铁星系元素记录仪
TIGERISS是向美国宇航局天体物理先锋计划提出的超重银河宇宙射线(UHGCR)探测器,能够测量从5B到82Pb的每种元素相对于26Fe的丰度。它是由LDB TIGER和SuperTIGER气球仪器以及重核探测器SMEX进化而来的,与它的前辈相比,TIGERISS将大大提高确定UHGCR核的能力。这已经在欧洲核子研究中心的组件加速器测试中得到了证明,包括用硅条探测器代替闪烁体。根据ISS附着点的不同,TIGERISS的几何系数估计为1.1至1.7 m2 sr,而TIGER的几何系数为0.6 m2 sr。在一年的时间里,TIGERISS将观测到约27个56Ba核,与目前的SuperTIGER数据集相比,统计上有20%的显著性结果。不需要对大气相互作用和闪烁体饱和效应进行校正,TIGERISS的结果将更加清晰,他们还将对更高的电荷进行初步测量,这将测试宇宙射线起源和加速模型。TIGERISS将测量由重恒星、超新星和双中子星合并中的中子捕获核合成产生的超高铬核,并将探测r过程元素对宇宙射线的相对贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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