Henning Korbmacher, Gustavo A. Domínguez-Castro, Mateusz Łącki, Jakub Zakrzewski, Luis Santos
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引用次数: 0
Abstract
Ultracold dipolar hard-core bosons in optical ladders provide exciting
possibilities for the quantum simulation of anisotropic XXZ spin ladders. We
show that introducing a tilt along the rungs results in a rich phase diagram at
unit filling. In particular, for a sufficiently strong dipolar strength, the
interplay between the long-range tail of the dipolar interactions and the
tilting leads to the emergence of a quantum floating phase, a critical phase
with incommensurate density-density correlations. Interestingly, the study of
the entanglement spectrum, reveals that the floating phase is topological,
constituting an intermediate gapless stage in the melting of a crystal into a
gapped topological Haldane phase. This novel scenario for topological floating
phases in dipolar XXZ ladders can be investigated in on-going experiments.
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