Thermal Transport of Fractionalized Antiferromagnetic and Field Induced States in the Kitaev Material Na2Co2TeO6

Abstract

We report an in-plane thermal transport study of the honeycomb Kitaev material Na2Co2TeO6 at subKelvin temperatures. In zero field, the (T) displays a rather weak T-dependence but has a non-zero residual term 0/T, indicating strong phonon scattering by magnetic excitation and the possibility of itinerant spinon-like excitations coexisting with an antiferromagnetic order below 27 K. We propose the zero-field ground state is a novel fractionalized antiferromagnetic (AF*) state with both magnetic order and fractionalized excitations. With both the heat current and external field along the a* (Co-Co bond) direction, the a* exhibits two sharp minima at 7.5 T and 10 T, and its value at 8.5 T is almost the same as the pure phononic transport for the high-field polarized state. This confirms the phase boundaries of the reported field-induced intermediate state and suggest its gapless continuum excitations possibly transport heat. No such intermediate phase was found in the a for the current and field along the a (zigzag chain) direction. Finally, Na2Co2TeO6 displays a strongly anisotropic magneto-thermal conductivity since the in-plane (out-of-plane) field strongly enhances (suppresses) the a* and a.

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