Linear Flavor-Wave Analysis of SU(4)-Symmetric Tetramer Model with Population Imbalance

We study the quantum magnetism of the SU(4) Mott insulator in a square optical superlattice, in which atoms with four nuclear-spin components strongly interact with each other, in the presence of an external field that controls the imbalance between the population of two components and that of the other two. This is a natural extension of the physics of spin-dimer materials under strong magnetic field. We apply an extended linear flavor-wave theory based on four-site plaquettes and unveil the ground-state phase diagram and excitation spectra. When the population of the four components is balanced and the plaquesttes are weakly coupled, the ground state is approximately given by the direct product of local SU(4)-singlet states. In high-field, the system reaches a ???saturated state??? where only two components are present. Our main finding is a nontrivial intermediate phase, which has a checkerboard-like arrangement of the SU(4)singlet and four-site resonating-valence-bond states.

Automated summary

In this study, we investigate the quantum magnetism of atoms with four nuclear-spin components in a square optical superlattice and reveal the ground-state phase diagram and excitation spectra. Our main finding is the discovery of a nontrivial intermediate phase with a checkerboard-like arrangement.