Superconducting Phase-Diagram of H3S under High Magnetic Fields

Abstract

We report the temperature dependence of the upper critical fields μ0Hc2(T) of the high temperature superconductor H3S under applied pressures of 155 and 160 GPa through the electrical resistance transition observed under DC and pulsed magnetic fields up to 65 T, a record high combination of fields and pressures. We find that Hc2(T) generally follows the Werthamer, Helfand and Hohenberg (WHH) formalism at low fields, albeit with noticeable deviations upon approaching our experimental limit of μ0H = 65 T. In fact, Hc2(T) displays a remarkably linear dependence on temperature over an extended temperature range also found in multigap or in strongly-coupled superconductors. The best fit of Hc2(T) to the WHH formula yields a negligible value for the Maki parameter α and for spin-orbit scattering constant λSO. However, its behavior is relatively well-described by a model based on strong coupling superconductivity with a coupling constant λ 2. Therefore, we conclude that H3S behaves as a strong-coupled orbital-limited superconductor over the entire range of temperatures and fields used for our measurements.