Anisotropic Monopole Heat Transport in the Spin-Ice Compound Dy2Ti2O7

Abstract

We report a study of the thermal conductivity of the spin-ice material Dy2Ti2O7. From the anisotropic magnetic-field dependence of and by additional measurements on the phononic reference compounds Y2Ti2O7 and DyYTi2O7, we are able to separate the phononic and the magnetic contributions to the total heat transport, i.e. ph and mag, respectively, which both depend on the magnetic field. The field dependent ph arises from lattice distortions due to magnetic-field induced torques on the non-collinear magnetic moments of the Dy ions. For mag, we observe a highly anisotropic magnetic-field dependence, which correlates with the corresponding magnetization data reflecting the different magnetic-field induced spin-ice ground states. The magnitude of mag increases with the degree of the ground-state degeneracy. This anisotropic field dependence as well as various hysteresis effects suggest that mag$ is essentially determined by the mobility of the magnetic monopole excitations in spin ice.