Coexistence of local magnetism and superconductivity in the heavy-fermion CeRh2As2 revealed by μSR studies

Abstract

The superconducting (SC) state (Tc = 0.3 K) of the heavy-fermion compound CeRh2As2, which undergoes an unusual field-induced transition to another high-field SC state, emerges from an unknown ordered state below To = 0.55 K. While an electronic multipolar order of itinerant Ce-4f states was proposed to account for the To phase, the exact order parameter has not been known to date. Here, we report on muon spin relaxation (μSR) studies of the magnetic and SC properties in CeRh2As2 single crystals at low temperatures. We reveal a magnetic origin of the To order by identifying a spontaneous internal field below To = 0.55 K. Furthermore, we find evidence of a microscopic coexistence of local magnetism with bulk superconductivity. Our findings open the possibility that the To phase involves both dipole and higher order Ce-4f moment degrees of freedom and accounts for the unusual non-Fermi liquid behavior.