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Frustrated Extended Bose-Hubbard Model and Deconfined Quantum Critical Points with Optical Lattices at the Antimagic Wavelength

Niccolò Baldelli, Cesar R. Cabrera, Sergi Julià-Farré, Monika Aidelsburger, Luca Barbiero

2024Physical Review Letters18 citationsDOI

Abstract

The study of geometrically frustrated many-body quantum systems is of central importance to uncover novel quantum mechanical effects. We design a scheme where ultracold bosons trapped in a one-dimensional state-dependent optical lattice are modeled by a frustrated Bose-Hubbard Hamiltonian. A derivation of the Hamiltonian parameters based on Cesium atoms, further show large tunability of contact and nearest-neighbor interactions. For pure contact repulsion, we discover the presence of two phases peculiar to frustrated quantum magnets: the bond-order-wave insulator with broken inversion symmetry and a chiral superfluid. When the nearest-neighbor repulsion becomes sizable, a further density-wave insulator with broken translational symmetry can appear. We show that the phase transition between the two spontaneously symmetry-broken phases is continuous, thus representing a one-dimensional deconfined quantum critical point not captured by the Landau-Ginzburg-Wilson symmetry-breaking paradigm. Our results provide a solid ground to unveil the novel quantum physics induced by the interplay of nonlocal interactions, geometrical frustration, and quantum fluctuations.

Topics & Concepts

PhysicsHamiltonian (control theory)BosonCondensed matter physicsQuantum phasesQuantum mechanicsMott insulatorQuantum phase transitionTranslational symmetryQuantumFrustrationSuperfluidityOptical latticeSymmetry breakingHubbard modelUltracold atomGround stateQuantum critical pointSuperconductivityMathematicsMathematical optimizationCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systemsPhysics of Superconductivity and Magnetism
Frustrated Extended Bose-Hubbard Model and Deconfined Quantum Critical Points with Optical Lattices at the Antimagic Wavelength | Litcius