5 years ago

SU(4)-symmetric spin-orbital liquids on the hyperhoneycomb lattice.

Willian M. H. Natori, Eric C. Andrade, Rodrigo G. Pereira

We study the effective spin-orbital model that describes the magnetism of 4$d^1$ or 5$d^1$ Mott insulators in ideal tricoordinated lattices. In the limit of vanishing Hund's coupling, the model has an emergent SU(4) symmetry which is made explicit by means of a Klein transformation on pseudospin degrees of freedom. Taking the hyperhoneycomb lattice as an example, we employ parton constructions with fermionic representations of the pseudospin operators to investigate possible quantum spin-orbital liquid states. We then use variational Monte Carlo methods to compute the energies of the projected wave functions. Our numerical results show that the lowest-energy quantum liquid corresponds to a zero-flux state with a Fermi surface of four-color fermionic partons.

Publisher URL: http://arxiv.org/abs/1802.00044

DOI: arXiv:1802.00044v1

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