Magnetization, specific heat, and thermal conductivity of hexagonal ErMnO3 single crystals

Abstract

We report a study of magnetism and magnetic transitions of hexagonal ErMnO3 single crystals by magnetization, specific heat and heat transport measurements. Magnetization data show that the c-axis magnetic field induces three magnetic transitions at 0.8, 12 and 28 T. The specific heat shows a peak at 2.2 K, which is due to a magnetic transition of Er3+ moments. For low-T thermal conductivity (), a clear dip-like feature appears in (H) isotherm at 1--1.25 T for H ab; while in the case of H c, a step-like increase is observed at 0.5--0.8 T. The transition fields in (H) are in good agreement with those obtained from magnetization, and the anomaly of can be understood by a spin-phonon scattering scenario. The natures of magnetic structures and corresponding field-induced transitions at low temperatures are discussed.