基于标准辐射环境监测仪(SREM)的内带各向异性研究

2009 European Conference on Radiation and Its Effects on Components and Systems Pub Date : 1900-01-01 DOI:10.1109/radecs.2009.5994710

M. Siegl, H. Evans, E. Daly, G. Santin, P. Nieminen, P. Buhler

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引用次数: 2

摘要

标准辐射环境监测仪(SREM)是为广泛应用于欧空局航天器而研制的粒子探测器。它在欧洲航天局的几个任务中飞行，最近的一次是赫歇尔和普朗克太空望远镜。利用近地轨道卫星PROBA-1上的SREM单元数据，研究了Van Allen带内部的俯仰角各向异性。利用GRAS/Geant4蒙特卡罗模拟得到了SREM的方向响应函数，该函数与SREM对仰角诱导磁通各向异性的敏感性有关。将定向响应函数与AP8模型的各向异性版本(基于Badhwar-Konradi各向异性分布)相结合，以改进计数预测。考虑通量各向异性对短期数据和长期综合计数都很重要。可以实现AP8模型的重大改进。

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Inner belt anisotropy investigations based on the Standard Radiation Environment Monitor (SREM)

The Standard Radiation Environment Monitor (SREM) is a particle detector developed for wide use on ESA spacecraft. It is flying on several ESA missions, most recently the Herschel and Planck space telescopes. Using data from the SREM unit on PROBA-1 in LEO, pitch angle anisotropies in the inner Van Allen belt are investigated. The sensitivity of the SREM to pitch angle induced flux anisotropies can be linked to the directional response function of the SREM, obtained using GRAS/Geant4 Monte-Carlo simulations. The directional response function is combined with an anisotropic version of the AP8 model (based on the Badhwar-Konradi anisotropy distribution) to yield improved count predictions. The importance of considering flux anisotropies is shown for both short-term data and long-term integrated counts. Significant improvements to the AP8 model can be realised.

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2009 European Conference on Radiation and Its Effects on Components and Systems

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