0.7A.U.的银河宇宙射线与金星快车管家数据

IF 1.8 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Thomas Rimbot , Olivier Witasse , Marco Pinto , Elise Wright Knutsen , Beatriz Sánchez-Cano , Simon Wood , Elena Tremolizzo , Willi Exner
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引用次数: 0

摘要

我们利用金星快车任务提供的工程数据,采用以前开发的程序来描述 0.7 A.U. 的银河宇宙射线(GCR)。工程参数是错误检测和纠正 EDAC 累积计数器,用于检测和纠正高能粒子引起的记忆错误。通过使用火星快车(1.5 A.U.)和罗塞塔(最高 4 A.U.)的数据,已经证明该计数器的斜率可以测量 GCR 通量。在这里,我们利用金星快车的 EDAC 数据重现了这些方法,以了解更接近太阳的 GCR 的行为。我们再次见证了 EDAC 斜率与太阳活动的反相关性,并进一步研究了这一过程。由此得出的金星太阳黑子数量最大值与 GCRs 强度最小值之间的时滞接近一天,而不是预期的几个月。这项工作是首次对距离太阳较小的地方的银河宇宙射线进行长期定性的工作之一,并进一步巩固了将EDAC计数器作为科学信息使用的价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Galactic cosmic rays at 0.7 A.U. with Venus Express housekeeping data

Galactic cosmic rays at 0.7 A.U. with Venus Express housekeeping data

We apply a previously developed procedure to characterize galactic cosmic rays (GCRs) at 0.7 A.U. with engineering data coming from the Venus Express mission. The engineering parameters are the Error Detection and Correction EDAC cumulative counters, used for detection and correction of memory errors induced by highly energetic particles. It has already been demonstrated that the slope of this counter measures GCR fluxes using data from Mars Express (1.5 A.U.) and Rosetta (up to 4 A.U.) data. Here, we reproduce these methods using Venus Express EDAC data in order to understand the behavior of GCRs closer to the Sun. We again witness the anti-correlation of EDAC slope with the solar activity and further investigate this procedure. The resulting time-lag between maximum sunspot number and minimum GCRs intensity at Venus is close to one day instead of the expected several months. This work represents one of the first characterization of galactic cosmic rays at small distances to the Sun over a long period of time and further cements the value of using EDAC counters as scientific information.

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来源期刊
Planetary and Space Science
Planetary and Space Science 地学天文-天文与天体物理
CiteScore
5.40
自引率
4.20%
发文量
126
审稿时长
15 weeks
期刊介绍: Planetary and Space Science publishes original articles as well as short communications (letters). Ground-based and space-borne instrumentation and laboratory simulation of solar system processes are included. The following fields of planetary and solar system research are covered: • Celestial mechanics, including dynamical evolution of the solar system, gravitational captures and resonances, relativistic effects, tracking and dynamics • Cosmochemistry and origin, including all aspects of the formation and initial physical and chemical evolution of the solar system • Terrestrial planets and satellites, including the physics of the interiors, geology and morphology of the surfaces, tectonics, mineralogy and dating • Outer planets and satellites, including formation and evolution, remote sensing at all wavelengths and in situ measurements • Planetary atmospheres, including formation and evolution, circulation and meteorology, boundary layers, remote sensing and laboratory simulation • Planetary magnetospheres and ionospheres, including origin of magnetic fields, magnetospheric plasma and radiation belts, and their interaction with the sun, the solar wind and satellites • Small bodies, dust and rings, including asteroids, comets and zodiacal light and their interaction with the solar radiation and the solar wind • Exobiology, including origin of life, detection of planetary ecosystems and pre-biological phenomena in the solar system and laboratory simulations • Extrasolar systems, including the detection and/or the detectability of exoplanets and planetary systems, their formation and evolution, the physical and chemical properties of the exoplanets • History of planetary and space research
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