Exotic low-energy excitations emergent in the random Kitaev magnet Cu2IrO3

Abstract

We report on magnetization M(H), dc/ac magnetic susceptibility (T), specific heat Cm(T) and muon spin relaxation (μSR) measurements of the Kitaev honeycomb iridate Cu2IrO2 with quenched disorder. In spite of the chemical disorders, we find no indication of spin glass down to 260~mK from the Cm(T) and μSR data. Furthermore, a persistent spin dynamics observed by the zero-field muon spin relaxation evidences an absence of static magnetism. The remarkable observation is a scaling relation of [H,T] and M[H,T] in H/T with the scaling exponent α=0.26-0.28, expected from bond randomness. However, Cm[H,T]/T disobeys the predicted universal scaling law, pointing towards the presence of low-lying excitations in addition to random singlets. Our results signify an intriguing role of quenched disorder in a Kitaev spin system in creating low-energy excitations possibly pertaining to Z2 fluxes.