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Bose-Hubbard triangular ladder in an artificial gauge field

Catalin-Mihai Halati, Thierry Giamarchi

2023Physical Review Research27 citationsDOIOpen Access PDF

Abstract

We consider interacting bosonic particles on a two-leg triangular ladder in the presence of an artificial gauge field. We employ density matrix renormalization group numerical simulations and analytical bosonization calculations to study the rich phase diagram of this system. We show that the interplay between the frustration induced by the triangular lattice geometry and the interactions gives rise to multiple chiral quantum phases. Phase transitions between superfluid to Mott-insulating states occur, which can have Meissner or vortex character. Furthermore, a state that explicitly breaks the symmetry between the two legs of the ladder, the biased chiral superfluid, is found for values of the flux close to $\ensuremath{\pi}$. In the regime of hard-core bosons, we show that the extension of the bond order insulator beyond the case of the fully frustrated ladder exhibits Meissner-type chiral currents. We discuss the consequences of our findings for experiments in cold atomic systems.

Topics & Concepts

BosonizationPhysicsSuperfluidityMott insulatorGauge theoryPhase diagramFrustrationBosonCondensed matter physicsHexagonal latticeRenormalization groupVortexQuantum mechanicsGauge bosonAntiferromagnetismPhase (matter)FermionThermodynamicsCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systemsPhysics of Superconductivity and Magnetism
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