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Dirac fermions with plaquette interactions. I. SU(2) phase diagram with Gross-Neveu and deconfined quantum criticalities

Yuan Da Liao, Xiao Yan Xu, Zi Yang Meng, Yang Qi

2022Physical review. B./Physical review. B29 citationsDOIOpen Access PDF

Abstract

We investigate the ground state phase diagram of an extended Hubbard model with a $\ensuremath{\pi}$-flux hopping term at half filling on a square lattice, with unbiased large-scale auxiliary-field quantum Monte Carlo simulations. As a function of interaction strength, there emerges an intermediate phase which realizes two interaction-driven quantum critical points, with the first between the Dirac semimetal and an insulating phase of weak valence bond solid (VBS) order, and the second separating the VBS order and an antiferromagnetic insulating phase. These intriguing quantum critical points are respectively bestowed with Gross-Neveu and deconfined quantum criticalities, and the critical exponents ${\ensuremath{\eta}}_{\text{VBS}}=0.6(1)$ and ${\ensuremath{\eta}}_{\text{AFM}}=0.58(3)$ at a deconfined quantum critical point satisfy the conformal field theory bootstrap bound. We also investigate the dynamical properties of the spin excitation and find the spin gap open near the first transition and closed at the second. The relevance of our findings in realizing deconfined quantum criticality in fermion systems and the implication to lattice models with further extended interactions such as those in quantum moir\'e systems, are discussed.

Topics & Concepts

PhysicsQuantum critical pointQuantum phase transitionValence bond theoryQuantum Monte CarloPhase diagramQuantumQuantum mechanicsQuantum phasesCondensed matter physicsPhase (matter)Monte Carlo methodStatisticsAtomic orbitalMathematicsElectronPhysics of Superconductivity and MagnetismTopological Materials and PhenomenaAdvanced Condensed Matter Physics
Dirac fermions with plaquette interactions. I. SU(2) phase diagram with Gross-Neveu and deconfined quantum criticalities | Litcius