The frustrated Heisenberg antiferromagnet on the honeycomb lattice: A candidate for deconfined quantum criticality

Abstract

We study the ground-state (gs) phase diagram of the frustrated spin-1/2 J1-J2-J3 antiferromagnet with J2 = J3 = J1 on the honeycomb lattice, using coupled-cluster theory and exact diagonalization methods. We present results for the gs energy, magnetic order parameter, spin-spin correlation function, and plaquette valence-bond crystal (PVBC) susceptibility. We find a N\'eel antiferromagnetic (AFM) phase for < c1 ≈ 0.47, a collinear striped AFM phase for > c2 ≈ 0.60, and a paramagnetic PVBC phase for c1 c2. The transition at c2 appears to be of first-order type, while that at c1 is continuous. Since the N\'eel and PVBC phases break different symmetries our results favor the deconfinement scenario for the transition at c1.