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Metal-insulator transition and quantum magnetism in the SU(3) Fermi-Hubbard model

Chunhan Feng, Eduardo Ibarra-García-Padilla, Kaden R. A. Hazzard, Richard T. Scalettar, Shiwei Zhang, Ettore Vitali

2023Physical Review Research21 citationsDOIOpen Access PDF

Abstract

We develop a self-consistent variant of the constrained path quantum Monte Carlo approach which ensures its independence of the trial wave function, and apply the method to compute ground-state correlations in the two-dimensional SU(3) Fermi-Hubbard Hamiltonian at $\frac{1}{3}$ filling, modeling fermions with three possible spin flavors moving on a square lattice with an average of one particle per site. We provide clear evidence of a quantum critical point separating a nonmagnetic uniform metallic phase from a regime where long-range ``spin'' order is present. This discovery of multiple successive transitions to magnetic states with regular, long-range alternation of the different flavors, whose symmetry changes as the interaction strength increases, significantly extends previous work in the Heisenberg limit to itinerant fermions. In addition to the rich quantum magnetism, this important physical system allows one to study integer filling and the associated Mott transition disentangled from nesting, in contrast to the usual SU(2) model, while preserving the square-lattice geometry. Our results also provide a significant step towards the interpretation of present and future experiments on fermionic alkaline-earth atoms, and other realizations of $\mathrm{SU}(N)$ physics.

Topics & Concepts

PhysicsQuantum Monte CarloSquare latticeHubbard modelQuantum critical pointCondensed matter physicsHamiltonian (control theory)MagnetismFermionQuantum mechanicsMott insulatorWave functionQuantumQuantum phase transitionIsing modelMonte Carlo methodSuperconductivityMathematicsMathematical optimizationStatisticsPhysics of Superconductivity and MagnetismCold Atom Physics and Bose-Einstein CondensatesAdvanced Condensed Matter Physics
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