从 JWST 数据估算小行星 (16) Psyche 上的水和羟基丰度

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Stephanie G. Jarmak, Tracy M. Becker, Charles E. Woodward, Casey I. Honniball, Andrew S. Rivkin, Margaret M. McAdam, Zoe A. Landsman, Saverio Cambioni, Thomas G. Müller, Driss Takir, Kurt D. Retherford, Anicia Arredondo, Linda T. Elkins-Tanton
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引用次数: 0

摘要

我们对太阳系演化的理解与对小行星成分,特别是 M 级小行星成分的解释密切相关。这些小行星最初被认为是已分化行星的裸露核心,这一假设的依据是它们的光谱与铁陨石相似。然而,最近的天文观测通过探测到与 OH 和潜在的 H2O 有关的 3 μm 吸收特征,揭示了它们表面的水合作用。我们利用詹姆斯-韦伯太空望远镜(JWST)1.1-6.63 μm 波段的数据,展示了最大的 M 级小行星(16)Psyche 上主要由 OH 引起的水合作用的证据。我们的观测包括两次探测到与 OH 和 H2O 相关的完整 3 μm 特征,这些特征类似于在 CY-、CH- 和 CB 型碳质软玉中发现的特征,但在两次观测中没有发现与 H2O 相关的 6 μm 唯一特征。在两次观测中,我们观察到 3 μm 深度的氢含量在 4.3% 到 6% 之间,与其他无空气天体 250-400 ppm 的氢丰度估计值一致。根据 6 μm 特征区域附近的标准偏差,我们将水丰度的上限定为 39 ppm。水合矿物的存在表明 Psyche 星的历史很复杂。含羟基矿物的外源可能来自水合撞击物。而内源性的含羟基矿物则表明其成分更类似于E级或P级小行星。如果水合作用是内生的,那么它就支持了Psyche起源于雪线之外,后来迁移到外主带的理论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Estimate of Water and Hydroxyl Abundance on Asteroid (16) Psyche from JWST Data
Our understanding of solar system evolution is closely tied to interpretations of asteroid composition, particularly the M-class asteroids. These asteroids were initially thought to be the exposed cores of differentiated planetesimals, a hypothesis based on their spectral similarity to iron meteorites. However, recent astronomical observations have revealed hydration on their surface through the detection of 3 μm absorption features associated with OH and potentially H2O. We present evidence of hydration due mainly to OH on asteroid (16) Psyche, the largest M-class asteroid, using data from the James Webb Space Telescope (JWST) spanning 1.1–6.63 μm. Our observations include two detections of the full 3 μm feature associated with OH and H2O resembling those found in CY-, CH-, and CB-type carbonaceous chondrites, and no 6 μm feature uniquely associated with H2O across two observations. We observe 3 μm depths of between 4.3% and 6% across two observations, values consistent with hydrogen abundance estimates on other airless bodies of 250–400 ppm. We place an upper limit of 39 ppm on the water abundance from the standard deviation around the 6 μm feature region. The presence of hydrated minerals suggests a complex history for Psyche. Exogenous sources of OH-bearing minerals could come from hydrated impactors. Endogenous OH-bearing minerals would indicate a composition more similar to E- or P-class asteroids. If the hydration is endogenous, it supports the theory that Psyche originated beyond the snow line and later migrated to the outer main belt.
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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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