Oxygen Isotope Exchange Between Dust Aggregates and Ambient Nebular Gas

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-09-04 DOI:arxiv-2409.02736

Sota Arakawa, Daiki Yamamoto, Lily Ishizaki, Tamami Okamoto, Noriyuki Kawasaki

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Abstract

Meteorites and their components exhibit a diverse range of oxygen isotope compositions, and the isotopic exchange timescale between dust grains and ambient gas is a key parameter for understanding the spatiotemporal evolution of the solar nebula. As dust grains existed as macroscopic aggregates in the solar nebula, it is necessary to consider the isotopic exchange timescales for these aggregates. Here, we theoretically estimate the isotope exchange timescales between dust aggregates and ambient vapor. The isotope exchange process between aggregates and ambient vapor is divided into four processes: (i) supply of gas molecules to the aggregate surface, (ii) diffusion of molecules within the aggregate, (iii) isotope exchange on the surface of constituent particles, and (iv) isotope diffusion within the particles. We evaluate these timescales and assess which one becomes the rate-determining step. We reveal that the isotope exchange timescale is approximately the same as that of the constituent particles when the aggregate radius is smaller than the critical value, which is a few centimeters when considering the exchange reaction between amorphous forsterite aggregates and water vapor.

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尘埃聚合体与环境星云气体之间的氧同位素交换

陨石及其成分表现出多种多样的氧同位素组成，尘粒与环境气体之间的同位素交换时间尺度是了解太阳星云时空演变的一个关键参数。由于尘粒在太阳星云中以宏观聚集体的形式存在，因此有必要考虑这些聚集体的同位素交换时标。在这里，我们从理论上估计了尘粒聚集体与环境水汽之间的同位素交换时间尺度。聚集体与环境蒸气之间的同位素交换过程分为四个过程：(i) 气体分子向聚集体表面的供应，(ii) 聚集体内部分子的扩散，(iii) 构成颗粒表面的同位素交换，(iv) 颗粒内部的同位素扩散。我们对这些时间尺度进行了评价，并评估了哪一个成为决定速率的步骤。我们发现，当聚合体半径小于临界值时，同位素交换的时间尺度与组成颗粒的时间尺度大致相同，考虑到无定形芒硝聚合体与水蒸气之间的交换反应，临界值为几厘米。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Earth and Planetary Astrophysics

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