Non-BCS thermodynamic properties of H2S superconductor

Abstract

The present paper determines the thermodynamic properties of the superconducting state in the H2S compound. The values of the pressure from 130 GPa to 180 GPa were taken into consideration. The calculations were performed in the framework of the Eliashberg formalism. In the first step, the experimental course of the dependence of the critical temperature on the pressure was reproduced: TC∈<31,88> K, whereas the Coulomb pseudopotential equal to 0.15 was adopted. Next, the following quantities were calculated: the order parameter at the temperature of zero Kelvin ((0)), the specific heat jump at the critical temperature ( C(TC) CS(TC)-CN(TC)), and the thermodynamic critical field (HC(0)). It was found that the values of the dimensionless ratios: R 2(0)/kBTC, RC C(TC)/CN(TC), and RHTCCN(TC)/HC2(0) deviate from the predictions of the BCS theory: R∈<3.64,4.16>, RC∈<1.59,2.24>, and RH∈<0.144, 0.163>. Generalizing the results on the whole family of the HnS-type compounds, it was shown that the maximum value of the critical temperature can be equal to 290 K, while R, RC and RH adopt the following values: 6.53, 3.99, and 0.093, respectively.