基于改进形状模型的谷神星冷阱历史

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS The Planetary Science Journal Pub Date : 2024-04-15 DOI:10.3847/psj/ad3639
Norbert Schorghofer, Robert Gaskell, Erwan Mazarico, John Weirich
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引用次数: 0

摘要

黎明号宇宙飞船先前绘制了谷神星北极区域的永久阴影区(PSRs)。在其中一些永久阴影区发现了假定的冰沉积物,而大多数永久阴影区没有发现明亮的沉积物,这被认为是由于轴倾斜的振荡造成的,振荡周期为 25 ka。我们利用立体光度测量法构建了PSR环形山的精细地形模型。射线追踪计算显示,在最大轴倾角处没有PSR,这意味着冰沉积物非常年轻。在轴倾角为 10°时,明亮的冰沉积物没有延伸到 PSR 之外,而 PSR 最后一次出现是在大约 6 ka 年前。这表明,水是通过频繁而短暂的事件输送到极区或暴露在陨石坑内的。利用地形辐照度模型计算了地表温度,以划分冷阱。根据最高平衡温度,Cerean PSRs温度过高,无法捕获超巨星。
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History of Ceres’s Cold Traps Based on Refined Shape Models
Permanently shadowed regions (PSRs) in the north polar region of Ceres have been previously mapped by the Dawn spacecraft. Putative ice deposits are found in some of these PSRs, whereas most PSRs host no bright deposits, which is thought to be due to oscillations of the axis tilt with a ∼25 ka period. We use stereophotoclinometry to construct refined topographic models of PSR-hosting craters. Ray-tracing calculations reveal that no PSRs remain at the maximum axis tilt, which implies that the ice deposits are remarkably young. The bright ice deposits do not extend beyond PSRs at an axis tilt of 10°, which last occurred about 6 ka ago. This suggests that water is delivered to the polar regions or exposed within the craters by frequent and short-lived events. Surface temperatures are calculated with a terrain irradiance model to delineate cold traps. Based on maximum equilibrium temperatures, Cerean PSRs are too warm to trap supervolatiles.
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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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