Scaling behavior and giant field-enhancement of the thermal conductivity in the honeycomb antiferromagnet BaCo2(AsO4)2

Abstract

The layered honeycomb material BaCo2(AsO4)2 (BCAO) is of topical interest because its magnetic state is related to that of the Kitaev magnet α-RuCl3. Using thermal transport to probe how magnetic excitations interact with phonons in the magnetically disordered regime, we have uncovered an unusually large enhancement of the thermal conductivity xx in an in-plane magnetic field H. Just above the N\'eel temperature T N, a field of 13 T increases xx by a factor 211, much larger than reported previously in any magnetic insulator. Interestingly, xx(H,T) exhibits a scaling behavior in the entire magnetically disordered region that surrounds the ordered zigzag state. The ratio xx(H,T)/xx(13,T), measured throughout the disordered region, collapses to a one-parameter scaling function exp(-1/gx) (where x = μ BB/k BT and g is a constant).