太阳系中水冰的古老遗产。

The ancient heritage of water ice in the solar system.

机构信息

Department of Astronomy, University of Michigan, 311 West Hall, 1085 South University Avenue, Ann Arbor, MI 48109, USA.

Department of Terrestrial Magnetism, Carnegie Institution of Washington, Washington, DC 20015, USA.

出版信息

Science. 2014 Sep 26;345(6204):1590-3. doi: 10.1126/science.1258055.

DOI:10.1126/science.1258055

PMID:25258075

Abstract

Identifying the source of Earth's water is central to understanding the origins of life-fostering environments and to assessing the prevalence of such environments in space. Water throughout the solar system exhibits deuterium-to-hydrogen enrichments, a fossil relic of low-temperature, ion-derived chemistry within either (i) the parent molecular cloud or (ii) the solar nebula protoplanetary disk. Using a comprehensive treatment of disk ionization, we find that ion-driven deuterium pathways are inefficient, which curtails the disk's deuterated water formation and its viability as the sole source for the solar system's water. This finding implies that, if the solar system's formation was typical, abundant interstellar ices are available to all nascent planetary systems.

摘要

确定地球水的来源对于理解生命孕育环境的起源以及评估太空中此类环境的普遍性至关重要。整个太阳系中的水都表现出氘氢富集，这是低温、离子衍生化学的化石遗迹，要么存在于（i）母体分子云中，要么存在于太阳星云原行星盘中。通过对磁盘电离的综合处理，我们发现离子驱动的氘化途径效率低下，这限制了磁盘中氘化水的形成及其作为太阳系水的唯一来源的可行性。这一发现意味着，如果太阳系的形成是典型的，那么所有新生的行星系统都可以获得丰富的星际冰。

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太阳系中水冰的古老遗产。

The ancient heritage of water ice in the solar system.

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