Response of photoelectron peaks in the Martian ionosphere to solar EUV/X-ray irradiance

IF 2.9 3区 地球科学 Earth and Planetary Physics Pub Date : 2020-08-18 DOI:10.26464/epp2020035
XiaoShu Wu, Jun Cui, YuTian Cao, WeiQin Sun, Qiong Luo, BinBin Ni
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引用次数: 7

Abstract

An important population of the dayside Martian ionosphere are photoelectrons that are produced by solar Extreme Ultraviolet and X-ray ionization of atmospheric neutrals. A typical photoelectron energy spectrum is characterized by a distinctive peak near 27 eV related to the strong solar HeII emission line at 30.4 nm, and an additional peak near 500 eV related to O Auger ionization. In this study, the extensive measurements made by the Solar Wind Electron Analyzer on board the recent Mars Atmosphere and Volatile Evolution spacecraft are analyzed and found to verify the scenario that Martian ionosphere photoelectrons are driven by solar radiation. We report that the photoelectron intensities at the centers of both peaks increase steadily with increasing solar ionizing flux below 90 nm and that the observed solar cycle variation is substantially more prominent near the O Auger peak than near the HeII peak. The latter observation is clearly driven by a larger variability in solar irradiance at shorter wavelengths. When the solar ionizing flux increases from 1 mW·m-2 to 2.5 mW·m-2, the photoelectron intensity increases by a factor of 3.2 at the HeII peak and by a much larger factor of 10.5 at the O Auger peak, both within the optically thin regions of the Martian atmosphere.

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火星电离层中光电子峰对太阳EUV/ x射线辐照度的响应
火星白天一侧电离层的一个重要组成部分是由太阳极紫外线和x射线电离大气中性物产生的光电子。典型的光电子能谱在27 eV附近有一个明显的峰,与30.4 nm强太阳HeII发射线有关,在500 eV附近有一个额外的峰与O俄歇电离有关。在这项研究中,对最近的火星大气和挥发性演化航天器上的太阳风电子分析仪所做的大量测量进行了分析和发现,以验证火星电离层光电子由太阳辐射驱动的情景。在90 nm以下,两个峰中心的光电子强度随着太阳电离通量的增加而稳步增加,并且观测到的太阳周期变化在O俄歇峰附近比在HeII峰附近更为显著。后一种观测结果显然是由较短波长的太阳辐照度的较大变化所驱动的。当太阳电离通量从1 mW·m-2增加到2.5 mW·m-2时,在HeII峰的光电子强度增加了3.2倍,在O俄歇峰的光电子强度增加了10.5倍,两者都在火星大气的光学薄区域内。
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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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