Melting experiments on the Fe-C binary system up to 255 GPa: Constraints on the carbon content in the Earth's core

Mashino Izumi; Miozzi Francesca; Hirose Kei; Morard Guillaume; Sinmyo Ryosuke

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Melting experiments on the Fe-C binary system up to 255 GPa: Constraints on the carbon content in the Earth's core

机译：Fe-C二元体系融化实验高达255 GPA：对地球核心碳含量的限制

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Phase relations, including the eutectic liquid composition in the Fe-C binary system, remain unclear under the core pressure range, which makes estimating the carbon budget in the Earth's core difficult. To explore this issue, we have conducted melting and subsolidus experiments on Fe-C alloys in a diamond anvil cell up to 255 GPa. Textural and compositional characterizations of quenched samples show that carbon concentration in the eutectic liquid slightly decreases with increasing pressure and is about 3 wt.% at the inner core boundary (ICB) pressure. The solubility of carbon in solid Fe is found to be almost constant at similar to 1.0 wt.%. In situ X-ray diffraction data indicate that Fe forms eutectic melting with Fe3C to 203 GPa and with Fe7C3 at 255 GPa.

机译：相位关系，包括Fe-C二元体系中的共晶液体组合物，在核心压力范围内仍不清楚，这使得难以估算地球核心的碳预算。为了探索这个问题，我们在金刚石铁砧细胞中对Fe-C合金进行了熔化和血液化实验，高达255GPa。淬火样品的纹理和组成特征表明，共晶液中的碳浓度随着压力的增加而略微降低，并且在内核边界（ICB）压力下约为3重量％。发现碳在固体Fe中的溶解度几乎恒定，类似于1.0重量％。％。原位X射线衍射数据表明Fe形成Fe3C至203GPa的共晶熔化，并在255gPa下使用Fe7C3。

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来源
《Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System》 |2019年第2019期|共10页
作者
Mashino Izumi; Miozzi Francesca; Hirose Kei; Morard Guillaume; Sinmyo Ryosuke;
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作者单位

Univ Tokyo Dept Earth &

Planetary Sci Tokyo 1130033 Japan;

Sorbonne Univ Museum Natl Hist Nat CNRS IMPMC UMR 7590 F-75005 Paris France;

Univ Tokyo Dept Earth &

Planetary Sci Tokyo 1130033 Japan;

Sorbonne Univ Museum Natl Hist Nat CNRS IMPMC UMR 7590 F-75005 Paris France;

Univ Tokyo Dept Earth &

Planetary Sci Tokyo 1130033 Japan;

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原文格式 PDF
正文语种 eng
中图分类天文学、地球科学;行星、卫星、彗星、流星、陨星;
关键词
core; iron alloy; carbon; eutectic liquid; high pressure;

机译：核心;铁合金;碳;共晶液体;高压;

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1. Melting experiments on the Fe-C binary system up to 255 GPa: Constraints on the carbon content in the Earth's core [J] . Mashino Izumi, Miozzi Francesca, Hirose Kei, Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2019,第期

机译：Fe-C二元体系融化实验高达255 GPA：对地球核心碳含量的限制
2. Constraints on clinopyroxene/melt partitioning of REE, Rb, Sr, Ti, Cr, Zr, and Nb during mantle melting: First insights from direct peridotite melting experiments at 1.0 GPa [J] . Johnston AD, Schwab BE Geochimica et Cosmochimica Acta: Journal of the Geochemical Society and the Meteoritical Society . 2004,第23期

机译：地幔融化过程中稀土元素，Rb，Sr，Ti，Cr，Zr和Nb的斜辉石/熔体分配的限制：1.0 GPa下直接橄榄岩熔融实验的初步见解
3. Melting Phase Relations of Simplified Carbonated Peridotite at 12–26 GPa in the Systems CaO–MgO–SiO₂–CO₂ and CaO–MgO–Al₂O₃–SiO₂–CO₂: Highly Calcic Magmas in the Transition Zone of the Earth [J] . Shantanu Keshav, Gudmundur H. Gudfinnsson, Dean C. Presnall Journal of Petrology . 2011,第11期

机译：CaO-MgO-SiO _{2 -CO _{2 和CaO-MgO-Al _{2 系统中简化碳化钙橄榄岩在12–26 GPa的熔融相关系sub> O _{3 –SiO _{2 –CO _{2 ：地球过渡带的高度钙化岩浆}}}}}}
4. DIAMOND GROWTH FROM MELT-SOLUTIONS OF THE CARBONATE-SILICATE-SULFIDE-CARBON SYSTEMS OF NATURAL CHEMISTRY: BOUNDARY CONDITIONS, MECHANISMS AND KINETICS OF MASS TRANSFER (EXPERIMENT AT 5.5 - 8.5 GPA) [C] . Litvin Yu.A., Spivak A.V., Butvina V.G., International Conference on Single Crystal Growth and Heat amp; Mass Transfer(ICSC-2003) vol.1; 20030922-26; Obninsk(RU) . 2003

机译：天然化学碳酸盐-硅酸盐-硫化物-碳系统的熔体溶液中的金刚石生长：传质的边界条件，机理和动力学（实验在5.5-8.5 GPA下）
5. Accretion and core formation of the Earth: Constraints from high pressure experiments. [D] . Danielson, Lisa Renee. 2003

机译：地球的吸积和核心形成：来自高压实验的约束。
6. The carbon content of Earth and its core [O] . Rebecca A. Fischer, Elizabeth Cottrell, Erik Hauri, 2020

机译：地球碳含量及其核心
7. Hidden light carbon in the Earthu27s core?: Evidence from high pressure high temperature experiments in the Fe-C system. [O] . Satish-Kumar M., So H., Yoshino T., 2016

机译：地球核心中隐藏的轻碳？：来自Fe-C系统中高压高温实验的证据。

Melting experiments on the Fe-C binary system up to 255 GPa: Constraints on the carbon content in the Earth's core

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