The characterization of high-pressure superconducting state in Si2H6 compound: the strong-coupling description

Abstract

The thermodynamic parameters of the superconducting state, that induces in Si2H6 under the pressure at 275 GPa, have been calculated. In the framework of the Eliashberg formalism, it has been shown that the critical temperature can attain extremely high values: TC(μ)∈<173.36, 99.99> K, where the Coulomb pseudopotential (μ) belongs to the range from 0.1 to 0.3. The ratio of the energy gap to the critical temperature (R) significantly exceeds the value predicted by the BCS theory: R(μ)∈<4.40, 4.04>. Additionally, it has been stated that in the whole range of the superconducting state's existence, the electron effective mass (me) is large; [me] maxT=TC=2.397me, where the symbol me denotes the electron band mass.