Weakly first-order melting of the 1/3 plateau in the Shastry-Sutherland model

Abstract

We investigate the thermal properties of the 1/3 plateau in the Shastry-Sutherland model with infinite projected entangled-pair states (iPEPS) by performing the imaginary time evolution of the infinite temperature density matrix. We show that both the Z2 and Z3 broken symmetries of the ground states are restored at a unique temperature where the correlation length has a peak, and that the melting of the plateau occurs via a single weakly first-order transition. We focus on the experimentally relevant coupling constants deep into the 1/3 plateau phase at h = 1 and J'/J = 0.63, which was estimated to describe the SrCu2(BO3)2 compound. By computing the free energy we are able to locate the transition temperature around Tc 4.8K well above the temperature T=2K, at which the 1/3 plateau was observed in experiments. The investigation is supplemented by adding a bias term to the Hamiltonian and studying the induced crossover. We further map the transition line in the field-temperature phase diagram.