基于第一性原理的高压硫化氢：一种强烈非谐声子介导的超导体。

High-pressure hydrogen sulfide from first principles: a strongly anharmonic phonon-mediated superconductor.

机构信息

Donostia International Physics Center (DIPC), Manuel de Lardizabal Pasealekua 4, 20018 Donostia-San Sebastián, Basque Country, Spain.

IKERBASQUE, Basque Foundation for Science, Bilbao, Spain.

出版信息

Phys Rev Lett. 2015 Apr 17;114(15):157004. doi: 10.1103/PhysRevLett.114.157004. Epub 2015 Apr 16.

DOI:10.1103/PhysRevLett.114.157004

PMID:25933334

Abstract

We use first-principles calculations to study structural, vibrational, and superconducting properties of H_{2}S at pressures P≥200 GPa. The inclusion of zero-point energy leads to two different possible dissociations of H2S, namely 3H2S→2H3S+S and 5H2S→3H3S+HS2, where both H3S and HS2 are metallic. For H3S, we perform nonperturbative calculations of anharmonic effects within the self-consistent harmonic approximation and show that the harmonic approximation strongly overestimates the electron-phonon interaction (λ≈2.64 at 200 GPa) and Tc. Anharmonicity hardens H─S bond-stretching modes and softens H─S bond-bending modes. As a result, the electron-phonon coupling is suppressed by 30% (λ≈1.84 at 200 GPa). Moreover, while at the harmonic level Tc decreases with increasing pressure, the inclusion of anharmonicity leads to a Tc that is almost independent of pressure. High-pressure hydrogen sulfide is a strongly anharmonic superconductor.

摘要

我们使用第一性原理计算研究了压力 P≥200 GPa 下 H_{2}S 的结构、振动和超导性质。零点能的包含导致 H2S 可能发生两种不同的解离，即 3H2S→2H3S+S 和 5H2S→3H3S+HS2，其中 H3S 和 HS2 都是金属的。对于 H3S，我们在自洽谐和近似内进行非微扰的非谐效应计算，并表明谐和近似强烈高估了电子声子相互作用（在 200 GPa 时 λ≈2.64）和 Tc。非谐性使 H─S 键伸缩模式变硬，H─S 键弯曲模式变软。结果，电子声子耦合被抑制了 30%（在 200 GPa 时 λ≈1.84）。此外，虽然在谐和水平上 Tc 随压力增加而降低，但非谐性的包含导致 Tc 几乎与压力无关。高压硫化氢是一种强烈的非谐超导体。

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基于第一性原理的高压硫化氢：一种强烈非谐声子介导的超导体。

High-pressure hydrogen sulfide from first principles: a strongly anharmonic phonon-mediated superconductor.

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