Significant thermal Hall effect in the 3d cobalt Kitaev system Na2Co2TeO6

Abstract

Kitaev physics has recently attracted attention in condensed matter for its anticipated novel quantum spin liquid state. The thermal transport measurement is crucial for probing the novel features of charge-neutral quasiparticles. In this letter, we report a significant thermal Hall effect in Na2Co2TeO6 (NCTO), a Kitaev quantum spin liquid candidate, when the magnetic field is applied along the out-of-plane direction of the honeycomb plane. The thermal conductivity (xx) and thermal Hall conductivity (xy) in NCTO reveal distinct magnetic field dependences below and above the Neel temperature (TN) of 27 K. For T>TN, xx has a monotonic decrease in the field dependence, while xy persists up to T* = 150 K. On the other hand, both xx and xy exhibit complex field dependence for T<TN.