Strong Electronic Interaction and Signatures of Nodal Superconductivity in Zr5Pt3Cx

Abstract

The physical properties of the Zr5Pt3 compound with interstitial carbon in hexagonal D88-structure was investigated. A set of macroscopic measurements reveal a bulk superconducting at approximately 7 K for Zr5Pt3C0.3 close to Zr5Pt3, also with a correlate anomalous resistivity behavior. However, both the signatures of strong electron-electron interaction, and the electronic contribution to specific heat, increase dramatically with the C doping. For the first time the x-ray photoelectron spectra compared with DFT/PWLO calculations of electronic structure show a complex Fermi surface with high density of states for Zr5Pt3. Also results show the signature of unconventional superconductivity. Indeed, was observed an unusual behavior for lower and upper critical field diagrams of Zr5Pt3C0.3. The temperature dependence of penetration length and electronic contribution to specific heat suggests that electronic pairing deviates of s-wave the BCS scenario.