Particles and Photons as Drivers for Particle Release from the Surfaces of the Moon and Mercury

被引:0
|
作者
P. Wurz
S. Fatemi
A. Galli
J. Halekas
Y. Harada
N. Jäggi
J. Jasinski
H. Lammer
S. Lindsay
M. N. Nishino
T. M. Orlando
J. M. Raines
M. Scherf
J. Slavin
A. Vorburger
R. Winslow
机构
[1] University of Bern,Physics Institute
[2] Umeå University,Department of Physics
[3] University of Iowa,Department of Physics and Astronomy
[4] Kyoto University,NASA Jet Propulsion Laboratory
[5] California Institute of Technology,Space Research Institute
[6] Austrian Academy of Sciences,School of Physics and Astronomy
[7] The University of Leicester,Dept. of Climate and Space Sciences and Engineering
[8] Japan Aerospace Exploration Agency,Institute for the Study of Earth, Oceans, and Space
[9] Georgia Institute of Technology,undefined
[10] University of Michigan,undefined
[11] University of New Hamsphire,undefined
来源
Space Science Reviews | 2022年 / 218卷
关键词
Mercury; Moon; Exosphere; Release processes; Sputtering; Photon-stimulated desorption; Escape;
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学科分类号
摘要
The Moon and Mercury are airless bodies, thus they are directly exposed to the ambient plasma (ions and electrons), to photons mostly from the Sun from infrared range all the way to X-rays, and to meteoroid fluxes. Direct exposure to these exogenic sources has important consequences for the formation and evolution of planetary surfaces, including altering their chemical makeup and optical properties, and generating neutral gas exosphere. The formation of a thin atmosphere, more specifically a surface bound exosphere, the relevant physical processes for the particle release, particle loss, and the drivers behind these processes are discussed in this review.
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