Low-temperature heat transport and magnetic-structure transition of the hexagonal TmMnO3 single crystals

Abstract

We study the low-temperature heat transport, as well as the magnetization and the specific heat, of TmMnO3 single crystals to probe the transitions of magnetic structure induced by magnetic field. It is found that the low-T thermal conductivity () shows strong magnetic-field dependence and the overall behaviors can be understood in the scenario of magnetic scattering on phonons. In addition, a strong "dip"-like feature shows up in (H) isotherms at 3.5--4 T for H c, which is related to a known spin re-orientation of Mn3+ moments. The absence of this phenomenon for H a indicates that the magnetic-structure transition of TmMnO3 cannot be driven by the in-plane field. In comparison, the magnetothermal conductivity of TmMnO3 is much larger than that of YMnO3 but smaller than that of HoMnO3, indicating that the magnetisms of rare-earth ions are playing the key role in the spin-phonon coupling of the hexagonal manganites.