Electronic and dynamical properties of CeRh2As2: Role of Rh2As2 layers and expected hidden orbital order

Abstract

Recently discovered heavy fermion CeRh2As2 compound crystallizes in the nonsymmorphic P4/nmm symmetry, which enables the occurrence of topological protection. Experimental results show that this material exhibits unusual behavior, which is manifested by the appearance of two superconducting phases. In this work, we uncover and discuss a role of Rh2As2 layers and their impact on the electronic and dynamical properties of the system. The location of Ce atoms between two non-equivalent layers allows for the realization of hidden orbital order. We point out that the electronic band structure around the Fermi level is associated mostly with Ce 4f and Rh 4d orbitals and suggest the occurrence of the Lifshitz transition induced by the external magnetic field. We discuss also the role played by the f--d orbital hybridization in the electronic band structure.