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Electron and phonon band-structure calculations for the antipolar SrPt₃P antiperovskite superconductor: Evidence of low-energy two-dimensional phonons

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arxiv 1207.6196 v1 pith:YW5OWCKP submitted 2012-07-26 cond-mat.supr-con cond-mat.str-el

Electron and phonon band-structure calculations for the antipolar SrPt₃P antiperovskite superconductor: Evidence of low-energy two-dimensional phonons

classification cond-mat.supr-con cond-mat.str-el
keywords phononcouplingsrpt3psuperconductivityantipolarcalculationselectronfound
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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SrPt3P has recently been reported to exhibit superconductivity with Tc = 8.4 K. To explore its superconducting mechanism, we have performed electron and phonon band calculations based on the density functional theory, and found that the superconductivity in SrPt3P is well described by the strong coupling phonon-mediated mechanism. We have demonstrated that superconducting charge carriers come from pd\pi-hybridized bands between Pt and P ions, which couple to low energy (~ 5 meV) phonon modes confined on the ab in-plane. These in-plane phonon modes, which do not break antipolar nature of SrPt3P, enhance both the electron-phonon coupling constant \lambda and the critical temperature Tc. There is no hint of a specific phonon softening feature in the phonon dispersion, and the effect of the spin-orbit coupling on the superconductivity is found to be negligible.

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