Low-temperature heat transport of CuFe1-xGaxO2 (x = 0--0.12) single crystals

Abstract

We report a study on the thermal conductivity of CuFe1-xGaxO2 (x = 0--0.12) single crystals at temperatures down to 0.3 K and in magnetic fields up to 14 T. CuFeO2 is a well-known geometrically frustrated triangular lattice antiferromagnet and can be made to display multiferroicity either by applying magnetic field along the c axis or by doping nonmagnetic impurities, accompanied with rich behaviors of magnetic phase transitions. The main experimental findings of this work are: (i) the thermal conductivities (a and c) show drastic anomalies at temperature- or field-induced magnetic transitions; (ii) the low-T (H) isotherms exhibit irreversibility in a broad region of magnetic fields; (iii) there are phonon scattering effect caused by magnetic fluctuations at very low temperatures. These results demonstrate strong spin-phonon coupling in this material and reveal the non-negligible magnetic fluctuations in the "ground state" of pure and Ga-doped samples.