Bonding and electronic properties of ice at high pressure

Militzer B.

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Bonding and electronic properties of ice at high pressure

机译：高压下冰的结合和电子性质

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The properties of water ice at megabar pressure are characterized with ab initio computer simulations. The focus lies on the metallic Cmcm phase and its insulating distorted analogue with Pnma symmetry. Both phases were recently predicted to occur at 15.5 and 12.5 Mbar, respectively (Militzer and Wilson, Phys Rev Lett, 2010, 105, 195701). The Fermi surface of the Cmcm phase is analyzed and possibility of Fermi nesting to occur is discussed. The Wannier orbital are computed for the Pnma structure and compared to ice X. While ice X shows typical sp ~3 hybridization, in the Pnma structure, the orbitals are deforms and no longer all aligned with the hydrogen bonds.

机译：从头算起，计算机模拟了兆巴压力下水冰的特性。重点在于金属Cmcm相及其绝缘变形的Pnma对称类似物。最近预测这两个阶段分别发生在15.5和12.5 Mbar（Militzer和Wilson，Phys Rev Lett，2010，105，195701）。分析了Cmcm相的费米表面，并讨论了费米嵌套的可能性。计算出了Pnma结构的Wannier轨道，并将其与冰X进行了比较。虽然冰X显示出典型的sp〜3杂交，但在Pnma结构中，轨道发生了变形并且不再与氢键对齐。

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《International Journal of Quantum Chemistry》 |2012年第2期|共7页
作者
Militzer B.;
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正文语种 eng
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关键词
fermi nesting; high pressure; hydrogen bonding; Wannier orbitals; water ice;

机译：费米嵌套;高压;氢键;Wannier轨道;水冰;

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Bonding and electronic properties of ice at high pressure

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