高压下铁氦化合物的形成

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-05-20 DOI:arxiv-2405.11810

Haruki Takezawa, Han Hsu, Kei Hirose, Fumiya Sakai, Suyu Fu, Hitoshi Gomi

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引用次数: 0

摘要

氦气是一种具有代表性的惰性惰性惰性气体元素，最近的实验和计算表明，在高压条件下，硅酸盐熔融铁中会掺入少量氦气。在这里，我们研究了铁和氦在 8-42 GPa 和 ~1000-2820 K 下的反应，发现铁晶格的体积显著膨胀，这归因于形成了 fcc 和扭曲的 hc 氦化合物，FeHex 中的 x 分别高达 0.13 和 0.42。在室温下释放压力时，仍然可以观察到这些 fcc 和扭曲的 hcp FeHex，而前者则失去了一些氦。此外，我们的第一性原理计算表明，在 0-50 GPa 的不同磁态下，FeHe0.25 的四面体间隙位点中含有氦原子的 fcc FeHe0.25 具有动态稳定性。这些结果支持地核可能是原始 3He 的一个大型储藏库。

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Formation of Iron-Helium Compounds under High Pressure

While helium is a representative noble gas element characterized by its chemical inertness at ambient conditions, recent experiments and calculations argued that a minor amount of helium is incorporated into molten iron from silicate under high pressures. Here we examined the reaction between iron and helium at 8-42 GPa and ~1000-2820 K and found remarkable volume expansion of the Fe lattice, which is attributed to the formations of fcc and distorted hcp iron-helium compounds with x in FeHex up to 0.13 and 0.42, respectively. Upon releasing pressure under room temperature, these fcc and distorted hcp FeHex were still observed while the former lost some helium. In addition, our first-principles calculations indicate that fcc FeHe0.25, with He atoms in the tetrahedral interstitial sites, is dynamically stable in different magnetic states throughout 0-50 GPa. These results support that the Earth's core can be a large reservoir of primordial 3He.

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arXiv - PHYS - Other Condensed Matter

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