Quantum phase diagram of J1-J2 Heisenberg S=1/2 antiferromagnet in honeycomb lattice: a modified spin wave study

Abstract

Using modified spin wave (MSW) method, we study the J1-J2 Heisenberg model with first and second neighbor antiferromagnetic exchange interactions. For symmetric S=1/2 model, with the same couplings for all the equivalent neighbors, we find three phase in terms of frustration parameter α=J2/J1: (1) a commensurate collinear ordering with staggered magnetization (N\'eel.I state) for 0≤α 0.207 , (2) a magnetically gapped disordered state for 0.207α 0.369, preserving all the symmetries of the Hamiltonian and lattice, hence by definition is a quantum spin liquid (QSL) state and (3) a commensurate collinear ordering in which two out of three nearest neighbor magnetizations are antiparallel and the remaining pair are parallel (N\'eel.II state), for 0.396α≤ 1. We also explore the phase diagram of distorted J1-J2 model with S=1/2. Distortion is introduced as an inequality of one nearest neighbor coupling with the other two. This yields a richer phase diagram by the appearance of a new gapped QSL, a gapless QSL and also a valence bond crystal (VBC) phase in addition to the previously three phases found for undistorted model.