【 摘 要 】

Two recent experiments [M. Somayazulu et al. Phys. Rev. Lett. 122, 027001 (2019) and A. P. Drozdov et al., Nature (London) 569, 528 (2019)] reported the discovery of superconductivity in the fcc phase of LaH10 at a critical temperature T-c between 250 and 260 K under a pressure of about 170 GPa. However, the dependence of T-c on pressure showed different patterns, i.e., the former experiment observed a continuous increase of T-c up to similar to 275 K on further increase of pressure to 202 GPa, while the latter one observed an abrupt decrease of T-c with increasing pressure. Here, based on first-principles calculations, we reveal that for the fcc-LaH10 phase, softening of the low-frequency optical phonon modes of H atoms dramatically occurs as pressure decreases, giving rise to a significant increase of the electron-phonon coupling (EPC) constant. Meanwhile, the electronic band structure near the Fermi energy is insensitive to change with respect to pressure. These results indicate that the pressure-dependent phonon softening is unlikely associated with Fermi-surface nesting, but driven by effective screening with the electronic states near the Fermi energy. It is thus demonstrated that the strong variation of EPC with respect to pressure plays a dominant role in the decrease of T-c with increasing pressure, supporting the measurements of Drozdov et al.

【 授权许可】

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