High-Tc superconductivity of clathrate Y3EuH24
Abstract
Recent progress on theoretical predictions of ternary superhydrides and their subsequent experimental confirmations have introduced us with a new generation of superconductors, having the potential to realize the synthesis of the most anticipated room temperature superconductors. Motivated by the recent high pressure experiment on YH6 and EuH6, we have theoretically examined the stability as well as superconductivity by mixing the two compounds. Here we identified four phases capable of maintaining thermodynamic stability in the pressure range of 150-300 GPa, namely Fm3m-Y3EuH24, Cmmm-YEuH12, Cmmm-YEu3H24,Immm-YEu3H24. Among them, only Fm3m-Y3EuH24 can maintain dynamically stability in the searched pressure range. The Allen-Dynes modified McMillan formula was used to further check the superconductivity of this phase, and the results reveal that the predicted superconducting transition temperature Tc of Y3EuH24 is approaching 220 K at 200 GPa. Fm3m-Y3EuH24 has a nearly identical logarithmic average phonon frequency ωlog to YH6, but its electron-phonon coupling (EPC) constant λ is somewhat smaller than YH6's 2.56, resulting in a lower ultimate Tc value.
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