Superconductivity of Liquids

ORAL

Abstract


We develop a non-perturbative approach for calculating the superconducting transition temperatures (Tc's) of liquids. The electron-electron scattering amplitude induced by electron-phonon coupling (EPC), from which an effective pairing interaction can be inferred, is related to the fluctuation of the T-matrix of electron scattering induced by ions. By applying the relation, EPC parameters can be extracted from a path-integral molecular dynamics simulation. For determining Tc, the linearized Eliashberg equations are re-established non-perturbatively. We apply the approach to estimate Tc's of metallic hydrogen liquids. It indicates that metallic hydrogen liquids in the pressure regime from 0.5 to 1.5 TPa have Tc's well above their melting temperatures, therefore are superconducting liquids.
[1] H. Liu, Y. Yuan, D. Liu, X.-Z. Li, and J. Shi, ArXiv:1901.02114 (2019).

*This work is supported by National Basic Research Program of China (973 Program) Grant No. 2015CB921101, 2016YFA0300900, and National Natural Science Foundation of China Grant No. 11325416, 11774003.

Presenters

  • Junren Shi

    • Peking Univ
    • Peking University

Authors

  • Huiying Liu

    • Peking Univ

  • Ying Yuan

    • Peking Univ

  • Donghao Liu

    • Peking Univ

  • Xin-Zheng Li

    • Peking Univ
    • School of Physics, Peking University
    • School of Physics, Peking University, Beijing 100871, P. R. China

  • Junren Shi

    • Peking Univ
    • Peking University