The many faces of quantum kagome materials: Interplay of further-neighbour exchange and Dzyaloshinskii-Moriya interaction

Abstract

The field of frustrated magnetism has been enriched significantly by the discovery of various kagome lattice compounds. These materials exhibit a great variety of macroscopic behaviours ranging from magnetic orders to quantum spin liquids. Using large-scale exact diagonalization, we construct the phase diagram of the S=1/2 J1-J2 kagome Heisenberg model with z-axis Dzyaloshinskii-Moriya interaction Dz. We show that this model can systematically account for many of the experimentally observed phases. Small J2 and Dz can stabilize respectively a gapped and a gapless spin liquid. When J2 or Dz is substantial, the ground state develops a Q=0, 120o antiferromagnetic order. The critical strengths for inducing magnetic transition are Dcz 0.1\, J1 at J2=0, and Jc2 0.4\, J1 at Dz=0. The previously reported values of Dz and J2 for herbertsmithite [ZnCu3(OH)6Cl2] place the compound in close proximity to a quantum critical point.