Reinvestigation of the homogeneous spin model in YbMgGaO4

Abstract

Motivated by a recent inelastic neutron scattering experiment on YbMgGaO4 William2019, we reinvestigate the homogeneous spin model on the triangular lattice. Using the cluster mean-field theory, we study the phase diagram and the magnetic-field-induced phase transition. We find that the phase boundary between the stripe state and the 120 antiferromagnetic state is broadened by the magnetic field, leading to a field-induced phase transition. This phase transition is suppressed by the next-nearest neighbor exchange interaction J2/J1 and vanishes as J2/J1>0.13. We find a parameter space at J2/J1=0.1, in which the field-induce transition can be achieved and the deviation of theoretical spin excitation energies from experimental data is only 5.4\%. Our results imply that an effective homogeneous spin model still works in YbMgGaO4.