Conventional type-II superconductivity in locally non-centrosymmetric LaRh2As2 single crystals

Abstract

We report on the observation of superconductivity in LaRh2As2, which is the analogue without f-electrons of the heavy-fermion system with two superconducting phases CeRh2As2. A zero-resistivity transition, a specific-heat jump and a drop in magnetic ac susceptibility consistently point to a superconducting transition at a transition temperature of Tc = 0.28\,K. The magnetic field-temperature superconducting phase diagrams determined from field-dependent ac-susceptibility measurements reveal small upper critical fields μ0Hc2 ≈ 12\,mT for H ab and μ0Hc2 ≈ 9\,mT for H c. The observed Hc2 is larger than the estimated thermodynamic critical field Hc derived from the heat-capacity data, suggesting that LaRh2As2 is a type-II superconductor with Ginzburg-Landau parameters abGL ≈ 1.9 and cGL≈ 2.7. The microscopic Eliashberg theory indicates superconductivity to be in the weak-coupling regime with an electron-phonon coupling constant λe-ph ≈ 0.4. Despite a similar Tc and the same crystal structure as the Ce compound, LaRh2As2 displays conventional superconductivity, corroborating the substantial role of the 4f electrons for the extraordinary superconducting state in CeRh2As2.