In situ Raman spectroscopic investigation of the structure of subduction-zone fluids

Kenji Mibe; I-Ming Chou; William A. Bassett

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In situ Raman spectroscopic investigation of the structure of subduction-zone fluids

机译：俯冲带流体结构的原位拉曼光谱研究

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In situ Raman spectra of synthetic subduction-zone fluids (KAlSi3O8?H2O system) were measured to 900°C and 2.3 GPa using a hydrothermal diamond-anvil cell. The structures of aqueous fluid and hydrous melt become closer when conditions approach the second critical endpoint. Almost no three-dimensional network was observed in the supercritical fluid above 2 GPa although a large amount of silicate component is dissolved, suggesting that the physical and chemical properties of these phases change drastically at around the second critical endpoint. Our experimental results indicate that the fluids released from a subducting slab change from aqueous fluid to supercritical fluid with increasing depth under the volcanic arcs.

机译：合成俯冲带流体（KAlSi3O8？H2O系统）的原位拉曼光谱是使用水热金刚石-砧座在900°C和2.3 GPa的条件下测量的。当条件接近第二个关键终点时，水性流体和含水熔体的结构会变得更紧密。尽管溶解了大量的硅酸盐成分，但在2 GPa以上的超临界流体中几乎没有观察到三维网络，这表明这些相的物理和化学性质在第二个临界终点附近发生了巨大变化。我们的实验结果表明，俯冲板释放的流体在火山弧作用下随着深度的增加而从水性流体变为超临界流体。

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《Journal of geophysical research. Solid earth: JGR》 |2008年第b4期|共8页
作者
Kenji Mibe; I-Ming Chou; William A. Bassett;
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入库时间 2022-08-19 01:41:35

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In situ Raman spectroscopic investigation of the structure of subduction-zone fluids

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