太阳系小天体中的火成过程I. 小行星和彗星。

Igneous processes in the small bodies of the Solar System I. Asteroids and comets.

作者信息

Leone Giovanni, Tanaka Hiroyuki K M

机构信息

Instituto de Investigación en Astronomía y Ciencias Planetarias, Universidad de Atacama, Chile.

Virtual Muography Institute, Global, Tokyo, Japan.

出版信息

iScience. 2023 Jun 17;26(7):107160. doi: 10.1016/j.isci.2023.107160. eCollection 2023 Jul 21.

DOI:10.1016/j.isci.2023.107160

PMID:37534155

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10391981/

Abstract

Igneous processes were quite widespread in the small bodies of the Solar System (SBSS) and were initially fueled by short-lived radioisotopes, the proto-Sun, impact heating, and differentiation heating. Once they finished, long-lived radioisotopes continued to warm the active bodies of the Earth, (possibly) Venus, and the cryovolcanism of Enceladus. The widespread presence of olivine and pyroxenes in planets and also in SBSS suggests that they were not necessarily the product of igneous processes and they might have been recycled from previous nebular processes or entrained in comets from interstellar space. The difference in temperature between the inner and the outer Solar System has clearly favored thermal annealing of the olivine close to the proto-Sun. Transport of olivine within the Solar System probably occurred also due to protostellar jets and winds but the entrainment in SBSS from interstellar space would overcome the requirement of initial turbulent regime in the protoplanetary nebula.

摘要

火成过程在太阳系小天体（SBSS）中相当普遍，最初由短寿命放射性同位素、原太阳、撞击加热和分异加热提供能量。一旦这些过程结束，长寿命放射性同位素继续使地球、（可能还有）金星的活跃天体以及土卫二的冰火山活动升温。行星以及SBSS中普遍存在橄榄石和辉石，这表明它们不一定是火成过程的产物，它们可能是从先前的星云过程中循环而来，或者是从星际空间被彗星夹带而来。太阳系内外的温度差异显然有利于靠近原太阳的橄榄石进行热退火。橄榄石在太阳系内的运输可能也是由于原恒星喷流和风，但从星际空间被夹带至SBSS将克服原行星星云初始湍流状态的要求。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/351b/10391981/fd69224004b2/gr1.jpg

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太阳系小天体中的火成过程I. 小行星和彗星。

Igneous processes in the small bodies of the Solar System I. Asteroids and comets.

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