Observation of Dirac States in Superconducting Materials

The massive shift in interest towards Topological Superconductors (TSC) and their potential to host Majorana fermions has been a major point that connects the rhetoric of both quantum computation and topological materials. Following this narrative, superconducting Pd-Bi binaries have large spin orbit coupling strength and can develop a TSC phase peaking the interests of both fields. Here, we report a high-resolution angle-resolved photoemission spectroscopy (ARPES) study on the normal state electronic structure of superconducting α−PdBi2 (Tc=1.7 K). Our results show the presence of Dirac states at higher-binding energy with the Dirac point 1.26 eV below the chemical potential at the zone center. Furthermore, the ARPES data indicate multiple band crossings at the chemical potential, consistent with the metallic behavior of α−PdBi2. Our experimental studies are complemented by first-principles calculations, revealing the presence of surface Rashba states in the vicinity of the chemical potential. Our study extends to other superconducting materials providing an opportunity to investigate the relationship between superconductivity and topology.