Superconductivity and the upper critical field in the chiral noncentrosymmetric superconductor NbRh2B2

Abstract

NbRh2B2 crystallises in a chiral noncentrosymmetric structure and exhibits bulk type-II superconductivity below 7.46(5)~K. Here we show that the temperature dependence of the upper critical field deviates from the behaviour expected for both Werthamer-Helfand-Hohenberg and the Ginzburg-Landau models and that μ0Hc2(0)≈ 18~T exceeds the Pauli paramagnetic limit, μ0HP=13.9~T. We explore the reasons for this enhancement. Transverse-field muon spectroscopy measurements suggest that the superconducting gap is either s-wave or (s+s)-wave, and the pressure dependence of Tc reveals the superconducting gap is primarily s-wave in character. The magnetic penetration depth λ(0) = 595(5)~nm. Heat capacity measurements reveal the presence of a multigap (s+s)-wave superconducting order parameter and moderate electron-phonon coupling.