月球表面带电尘埃的悬浮和空间分布模拟

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Li Zongye, He Zhaoguo, Yan Qi, Ge Yasong, Cao Yong, Chu Yuchuan, Lai Hairong and Cui Jun
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引用次数: 0

摘要

带电尘埃的悬浮可能对宇航员和月球车造成严重危害,这一直是月球探测中最重大的挑战之一。在此,我们采用粒子入胞法模拟了月球表面不同太阳风条件和太阳天顶角(SZAs)下的月球鞘势。根据 SZA 的不同,模拟的电位随高度的变化呈现出两种类型的分布。当 SZA ∼ 0°-70° 时,非单调分布的正表面电势在光电子鞘中占主导地位。当 SZA >∼81° 时,等离子体鞘中出现了负表面电势的单调分布。根据计算出的电势和尘埃半径分布呈指数递减的假设,我们进一步研究了悬浮在表面上方的尘埃的空间分布。研究发现,在等离子体鞘的终结点(SZA ∼ 81°),悬浮月球尘埃的数量密度增大。在光电子鞘中,随着 SZA 从 0° 上升到 70°,其密度逐渐降低。对电势和衍生静电场的进一步计算表明,尘埃的空间分布会受到太阳风的体积速度、数量密度和温度的影响。这些发现加深了我们对月球表面充电和月球尘埃悬浮机制的理解,可为月球探测提供技术支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulations on Levitation and Spatial Distribution of Charged Dust on the Moon Surface
The levitation of charged dust, which may cause serious hazards to astronauts and lunar rovers, has been one of the most significant challenges in lunar exploration. Here we simulate lunar sheath potentials in different solar wind conditions and solar zenith angles (SZAs) on the lunar surface by the particle-in-cell method. The simulated potentials exhibit two types of distributions as a function of height, depending on the SZAs. For SZA ∼ 0°–70°, the nonmonotonic distribution with positive surface potential dominates in the photoelectron sheath. For SZA >∼81°, the monotonic distribution with negative surface potential is observed in the plasma sheath. With the calculated potentials and the assumption that the dust radius distribution exponentially decreases, we further investigate spatial distributions of the dust levitated above the surface. It is found that number density of the levitating lunar dust is enhanced at the terminator (SZA ∼ 81°) in the plasma sheath. In the photoelectron sheath it gradually decreases as the SZA increases from 0° to 70°. Further calculations of the potential and the derived electrostatic field suggest that the dust spatial distributions can be influenced by the bulk velocity, number density, and temperature of the solar wind. Those findings deepen our understanding of lunar surface charging and the mechanism of lunar dust levitation, which can provide technical support for lunar explorations.
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来源期刊
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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