Water ice particles detected by SELENE's Spectral Profiler at lunar shadowed regions in various local times and latitudes

IF 4.8 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Kosei Toyokawa , Junichi Haruyama , Takahiro Iwata , Hitoshi Nozawa
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引用次数: 0

Abstract

Processes of water (OH and H2O) migration on the Moon remain unclear, prompting active research. Understanding lunar water migration requires investigation of the trapping and diffusion properties of water at various latitudes and local times. This study analyzed visible to near-infrared spectral data obtained by the Spectral Profiler (SP) onboard SELENE for shadowed regions at various local times and latitudes, not limited to the polar permanently shadowed regions. We assessed SP data for shadowed regions in 60 areas, each spanning a 10° × 10° latitude–longitude grid. Of the 1,061,907 analyzed shadowed-region data, 41,385 at various latitudes exhibited significant absorption in the 1.25 and 1.5 µm bands, indicating water ice particles. Data with the two absorption features suggest the presence of a water ice frost layer covering the lunar surface or suspended water ice particles above the lunar surface, at various latitude shadowed regions. Our spectral simulations have quantified the ice particles as being 0.1–1 µm in diameter, with a column density of 10–4–10–3 kg/m2. The spectral parameters for band absorption at the 1.5 µm band show symmetry between morning and evening sides, which is potentially attributed to the absence of variations in ice grain size and quantity. The 1.5 µm band absorption shows an increasing trend toward terminator regions, indicating variation in the water ice distribution and likely reflecting temperature conditions for water retention. The latitudinal trend of ice grain size and quantity remains uncertain because of the observed noise levels. Observations of water ice particles in shadowed regions at various latitudes and local times can provide new constraints on trapping and diffusion processes of lunar water migration.
SELENE 的光谱分析器在不同时间和纬度的月球阴影区探测到的水冰颗粒
水(OH 和 H2O)在月球上的迁移过程仍不清楚,因此需要积极开展研究。要了解月球上水的迁移,就必须研究水在不同纬度和局部时间的捕获和扩散特性。本研究分析了 SELENE 星载光谱剖面仪(Spectral Profiler,SP)获得的可见光至近红外光谱数据,这些数据针对不同时间和纬度的阴影区域,而不局限于极地永久阴影区域。我们评估了 60 个区域的阴影区 SP 数据,每个区域的纬度网格为 10° × 10°。在分析的 1,061,907 个阴影区数据中,不同纬度的 41,385 个数据在 1.25 和 1.5 µm 波段有明显的吸收,表明有水冰颗粒。具有这两种吸收特征的数据表明,在不同纬度的阴影区,存在着覆盖在月球表面的水冰霜层或悬浮在月球表面的水冰颗粒。我们的光谱模拟确定冰粒直径为 0.1-1 微米,冰柱密度为 10-4-10-3 千克/平方米。1.5 µm 波段吸收的光谱参数在早晚两侧显示出对称性,这可能是由于冰粒的大小和数量没有变化。1.5 µm 波段的吸收率在终结者区域呈上升趋势,表明水冰分布的变化,也可能反映了水保留的温度条件。由于观测到的噪声水平,冰粒大小和数量的纬度趋势仍不确定。在不同纬度和局部时间观测阴影区域的水冰颗粒,可以为月球水迁移的捕获和扩散过程提供新的制约因素。
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来源期刊
Earth and Planetary Science Letters
Earth and Planetary Science Letters 地学-地球化学与地球物理
CiteScore
10.30
自引率
5.70%
发文量
475
审稿时长
2.8 months
期刊介绍: Earth and Planetary Science Letters (EPSL) is a leading journal for researchers across the entire Earth and planetary sciences community. It publishes concise, exciting, high-impact articles ("Letters") of broad interest. Its focus is on physical and chemical processes, the evolution and general properties of the Earth and planets - from their deep interiors to their atmospheres. EPSL also includes a Frontiers section, featuring invited high-profile synthesis articles by leading experts on timely topics to bring cutting-edge research to the wider community.
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