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Bosonic Pfaffian state in the Hofstadter-Bose-Hubbard model

Felix A. Palm, Maximilian Buser, Julian Léonard, Monika Aidelsburger, Ulrich Schollwöck, Fabian Grusdt

2021Physical review. B./Physical review. B31 citationsDOIOpen Access PDF

Abstract

Topological states of matter, such as fractional quantum Hall states, are an active field of research due to their exotic excitations. In particular, ultracold atoms in optical lattices provide a highly controllable and adaptable platform to study such new types of quantum matter. However, finding a clear route to realize non-Abelian quantum Hall states in these systems remains challenging. Here we use the density-matrix renormalization-group (DMRG) method to study the Hofstadter-Bose-Hubbard model at filling factor $\ensuremath{\nu}=1$ and find strong indications that at $\ensuremath{\alpha}=1/6$ magnetic flux quanta per plaquette the ground state is a lattice analog of the continuum non-Abelian Pfaffian. We study the on-site correlations of the ground state, which indicate its paired nature at $\ensuremath{\nu}=1$, and find an incompressible state characterized by a charge gap in the bulk. We argue that the emergence of a charge density wave on thin cylinders and the behavior of the two- and three-particle correlation functions at short distances provide evidence for the state being closely related to the continuum Pfaffian. The signatures discussed in this letter are accessible in current cold atom experiments and we show that the Pfaffian-like state is readily realizable in few-body systems using adiabatic preparation schemes.

Topics & Concepts

PfaffianPhysicsFractional quantum Hall effectQuantum Hall effectDensity matrix renormalization groupQuantum mechanicsGround stateLandau quantizationAdiabatic processQuantumHubbard modelUltracold atomCharge (physics)Quantum electrodynamicsCondensed matter physicsQuantum spin Hall effectMagnetic fieldSuperconductivityMathematicsCombinatoricsQuantum and electron transport phenomenaCold Atom Physics and Bose-Einstein CondensatesPhysics of Superconductivity and Magnetism
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