Topography-Enhanced Ultra-Cold Trapping at the LCROSS Impact Site

IF 3.9 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Geophysical Research: Planets Pub Date : 2024-07-09 DOI:10.1029/2023JE007925
C. W. Hayes, D. A. Minton, J. L. Kloos, J. E. Moores
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Abstract

Small topographic features below the resolution of existing orbital data sets may create “micro ultra-cold traps” within the larger permanently shadowed regions that are present at the lunar poles. These ultra-cold traps are protected from the major primary and secondary illumination sources, and thus would create surfaces that are much colder than lower-resolution temperature maps would indicate. We examine this effect by creating a high resolution (1 m pix−1) terrain map based on upscaled data from the Lunar Orbiter Laser Altimeter. This map is illuminated by scattered sunlight and infrared emissions from sunlit terrain, which are then run through a thermal model to determine temperatures. We find that while most of the terrain experiences maximum temperatures around 50 K, there are a number of 1–30 m-scale ultra-cold traps with maximum temperatures as low as 20–30 K. By comparing our modeled ultra-cold trapping area to volatile abundances measured by Lunar Crater Observation and Sensing Satellite (LCROSS), we reveal a diverse environment where the surficial abundances necessary to explain the LCROSS results are strongly dependent on precisely where the impact occurred.

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LCROSS撞击点的地形增强型超冷捕获
低于现有轨道数据集分辨率的小地形特征可能会在月球两极较大的永久阴影区内形成 "微型超冷阱"。这些超冷阱受到保护,不会受到主要和次要光照源的影响,因此会产生比低分辨率温度图所显示的温度低得多的表面。我们根据月球轨道激光测高仪的放大数据绘制了一幅高分辨率(1 米像素-1)地形图,以此来研究这种效应。该地图由散射阳光和日照地形的红外辐射照亮,然后通过热模型来确定温度。我们发现,虽然大部分地形的最高温度在 50 K 左右,但也有一些 1-30 m 尺度的超低温陷阱,其最高温度低至 20-30 K。通过将我们模拟的超低温陷阱区域与月球环形山观测和传感卫星(LCROSS)测量到的挥发性丰度进行比较,我们揭示了一个多样化的环境,在这个环境中,解释 LCROSS 结果所需的表层丰度在很大程度上取决于撞击发生的确切位置。
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来源期刊
Journal of Geophysical Research: Planets
Journal of Geophysical Research: Planets Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)
CiteScore
8.00
自引率
27.10%
发文量
254
期刊介绍: The Journal of Geophysical Research Planets is dedicated to the publication of new and original research in the broad field of planetary science. Manuscripts concerning planetary geology, geophysics, geochemistry, atmospheres, and dynamics are appropriate for the journal when they increase knowledge about the processes that affect Solar System objects. Manuscripts concerning other planetary systems, exoplanets or Earth are welcome when presented in a comparative planetology perspective. Studies in the field of astrobiology will be considered when they have immediate consequences for the interpretation of planetary data. JGR: Planets does not publish manuscripts that deal with future missions and instrumentation, nor those that are primarily of an engineering interest. Instrument, calibration or data processing papers may be appropriate for the journal, but only when accompanied by scientific analysis and interpretation that increases understanding of the studied object. A manuscript that describes a new method or technique would be acceptable for JGR: Planets if it contained new and relevant scientific results obtained using the method. Review articles are generally not appropriate for JGR: Planets, but they may be considered if they form an integral part of a special issue.
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