Endogenous Lunar Volatiles

Francis M. McCubbin, Jessica J. Barnes, Peng Ni, Hejiu Hui, Rachel L. Klima, David Burney, James M. D. Day, Tomáš Magna, Jeremy W. Boyce, Romain Tartèse, Kathleen E. Vander Kaaden, Edgar Steenstra, Stephen M. Elardo, Ryan A. Zeigler, Mahesh Anand, Yang Liu
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引用次数: 11

Abstract

The intrinsic properties of the elements and their resulting behavior in natural systems represent the underpinnings of geochemistry as a scientific discipline (Goldschmidt 1937). One of the most valuable intrinsic properties of an element is its volatility. The volatility of an element is most commonly expressed as a 50% condensation temperature, which corresponds to the temperature at which 50% of an element would have condensed from a gas of solar composition at nebular total pressure of 10–4 bars (e.g., Lodders 2003). Refractory elements are characterized by high condensation temperatures with the inverse being true for more...
内生月球挥发物
元素的内在特性及其在自然系统中的表现是地球化学作为一门科学学科的基础(Goldschmidt,1937 年)。元素最宝贵的固有特性之一是其挥发性。元素的挥发性最常用 50%的凝结温度来表示,该温度相当于在星云总压为 10-4 巴时,50%的元素从太阳成分的气体中凝结出来的温度(例如,Lodders,2003 年)。难熔元素的特点是凝结温度高,反之则较低。
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