Effect of ring-exchange interactions in the extended Kitaev honeycomb model

Abstract

Motivated by the possible triple- Q classical order in the Kitaev candidate material Na2Co2TeO6, we investigate microscopic models that may stabilize the triple- Q order by studying an extended Kitaev honeycomb model with ring-exchange interactions (namely, the K--'-J R model) using the variational Monte Carlo method. It turns out that with positive ring-exchange interaction (J R>0) there indeed appears an exotic non-coplanar triple- Q ordered state featured by three Bragg peaks at symmetry-related M points in the crystallographic Brillouin zone. A magnetic field in the honeycomb plane can suppress the triple- Q order and induce a gapless quantum spin liquid (QSL) with 8 cones. Furthermore, with the increase of J R a proximate Kitaev spin liquid with eight Majorana cones labeled "PKSL8" is found which is very stable over a large range of interactions. The PKSL8 state shares the same projective symmetry group with the Kitaev spin liquid (KSL) which is located at small and J R. In a weak magnetic field applied normal to the honeycomb plane, the PKSL8 turns into an Abelian chiral spin liquid with Chern number =-4, unlike the KSL which yields a chiral spin liquid with =1. Since the triple- Q phase is adjacent to two QSLs in the phase diagram, our work suggests that it is more hopeful to experimentally realize the exotic QSL phases starting from the triple- Q order.