Giant anharmonicity suppresses superconductivity in AlH3 under pressure

Abstract

The anharmonic self energy of two zone boundary phonons were computed to lowest order for AlH3 in the Pm 3n structure at 110 GPa. The wavevector and branch index corresponding to these modes are situated in a region of phase space providing most of the electron-phonon coupling. The self energies are found to be very large and the anharmonic contribution to the linewidth of one of the modes studied could be distinguished from the electron-phonon linewidth. It is found that anharmonicity suppresses the electron-phonon coupling parameter λ, providing a possible explanation for the disagreement between experiment and previous theoretical studies of superconductivity in this system.