Impact of the Trapped Proton Anisotropy on the Ionizing Dose at Low Earth Orbits

机译：陷阱质子各向异性对低地球轨道电离剂量的影响

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The trapped proton anisotropy is not commonly taken into account in the radiation hardness assurance process for Low Earth Orbit missions. In this study, the impact of considering this characteristic of the trapped proton population is evaluated for the TID, Total Ionizing Dose, risk assessment at electronic component level. A specific development has been made in the OMERE tool and the realistic 3-dimensional radiation model of the SAC-D satellite (660 km, 98°) has been used to take into account the shielding around the components. It is shown that considering the proton anisotropy has no important impact on the TID result.

机译：在低地球轨道飞行任务的辐射硬度保证过程中，通常不会考虑俘获的质子各向异性。在这项研究中，针对TID，总电离剂量，电子部件级别的风险评估，评估了考虑被困质子种群这一特征的影响。 OMERE工具已经进行了特定开发，并且使用了SAC-D卫星的真实3维辐射模型（660 km，98°）来考虑组件周围的屏蔽。结果表明，考虑质子各向异性对TID结果没有重要影响。

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《European Conference on Radiation and Its Effects on Components and Systems》|2017年|1-3|共3页
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Athina Varotsou; Pierre Pourrouquet; Romain Fonta; Daniel Boscher; Robert Ecoffet;
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Protons; Satellites; Orbits; Anisotropic magnetoresistance; Electron traps; Electronic components; Solid modeling;

机译：质子;卫星;轨道;各向异性磁阻;电子陷阱;电子元件;固体建模;

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1. Effects of trapped proton flux anisotropy on dose rates in low Earth orbit [J] . Badhwar GD., Akatov YA., Myltseva VA., Radiation measurements . 1999,第3期

机译：质子通量各向异性对低地球轨道剂量率的影响
2. ABSORBED DOSE RATE ESTIMATION FOR PROTONS, LEPTONS AND HELIUM OBSERVED WITH AMS01 EXPERIMENT IN LOW EARTH ORBIT DURING STS-91 MISSION [J] . M. Ionica, B. Alpat, G. Ambrosi, Radiation Protection Dosimetry . 2005,第1a4期

机译：STS-91任务期间低地轨道AMS01实验观察的质子，轻子和氦的吸收剂量率估计。
3. TRAPPED PROTON FLUXES AT LOW EARTH ORBITS MEASURED BY THE PAMELA EXPERIMENT [J] . Adriani O., Barbarino G. C., Bazilevskaya G. A., The Astrophysical Journal. Letters . 2015,第1期

机译：帕梅拉实验测量的低地球轨道上的质子通量陷阱
4. Impact of the Trapped Proton Anisotropy on the Ionizing Dose at Low Earth Orbits [C] . Athina Varotsou, Pierre Pourrouquet, Romain Fonta, European Conference on Radiation and Its Effects on Components and Systems . 2017

机译：被捕获的质子各向异性对低地轨道电离剂量的影响
5. Analysis of Galileo energetic particle detector observations of Earth's geomagnetically trapped protons. [D] . Alinejad, Naser. 1995

机译：伽利略高能粒子探测器对地球地磁俘获质子的观测结果的分析。
6. Will Radiation-Induced Bystander Effects or Adaptive Responses Impact on the Shape of the Dose Response Relationships at Low Doses of Ionizing Radiation? [O] . William F. Morgan 2006

机译：在低剂量电离辐射下辐射诱发的旁观者效应或适应性反应会影响剂量反应关系的形状吗？
7. Total Ionizing Dose Effects on a Highly Integrated RF Transceiver for Small Satellite Radio Applications in Low Earth Orbit [O] . Jan Budroweit, Maciej Sznajder 2018

机译：在低地轨道中对小型卫星无线电应用的高度集成RF收发器的全电离剂量效应
8. Characterizing the Energy Deposition Events Produced by Trapped Protons in Low Earth Orbit. [R] . Brackenbush, L. W., Braby, L. A., Anderson, G. A. 1989

机译：表征低地球轨道中被困物质产生的能量沉积事件。

Impact of the Trapped Proton Anisotropy on the Ionizing Dose at Low Earth Orbits

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