Heat capacity evidence for proximity to the Kitaev QSL in A2IrO3 (A = Na, Li)

Abstract

The honeycomb lattice iridates A2IrO3 (A = Na, Li) are candidates for realization of the Kitaev-Heisenberg model although their proximity to Kitaev's quantum Spin-Liquid (QSL) is still debated. We report on heat capacity C and entropy Smag for A2IrO3 (A = Na, Li) in the temperature range 0.075~ K≤ T ≤ 155~K\@. We find a well separated two-peak structure for the magnetic heat capacity Cmag for both materials and Smag for Na2IrO3 shows a shoulder between the peaks with a value close to 1 2Rln2. These features signal the fractionalization of spins into Majornana Fermions close to Kitaev's QSL [Phys. Rev. B 92, 115122 (2015); Phys. Rev. B 93, 174425 (2016).]. These results provide the first thermodynamic evidence that A2IrO3 are situated close to the Kitaev QSL. Additionally we measure the high temperature T≤ 1000~K magnetic susceptibility and estimate the Weiss temperature θ in the true paramagnetic state. We find θ ≈ -127~K and -105~K, for Na2IrO3 and Li2IrO3, respectively.