Momentum-space Harper-Hofstadter model

Tomoki Ozawa; Hannah M. Price; Iacopo Carusotto

doi:10.1103/PhysRevA.92.023609

Momentum-space Harper-Hofstadter model

Tomoki Ozawa, Hannah M. Price, Iacopo Carusotto

Advanced Institute for Materials Research (AIMR)

University of Trento

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

We show how the weakly trapped Harper-Hofstadter model can be mapped onto a Harper-Hofstadter model in momentum space. In this momentum-space model, the band dispersion plays the role of the periodic potential, the Berry curvature plays the role of an effective magnetic field, the real-space harmonic trap provides the momentum-space kinetic energy responsible for the hopping, and the trap position sets the boundary conditions around the magnetic Brillouin zone. Spatially local interactions translate into nonlocal interactions in momentum space: within a mean-field approximation, we show that increasing interparticle interactions leads to a structural change of the ground state, from a single rotationally symmetric ground state to degenerate ground states that spontaneously break rotational symmetry.

Original language	English
Article number	023609
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	92
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.92.023609
Publication status	Published - 2015 Aug 10

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abstract = "We show how the weakly trapped Harper-Hofstadter model can be mapped onto a Harper-Hofstadter model in momentum space. In this momentum-space model, the band dispersion plays the role of the periodic potential, the Berry curvature plays the role of an effective magnetic field, the real-space harmonic trap provides the momentum-space kinetic energy responsible for the hopping, and the trap position sets the boundary conditions around the magnetic Brillouin zone. Spatially local interactions translate into nonlocal interactions in momentum space: within a mean-field approximation, we show that increasing interparticle interactions leads to a structural change of the ground state, from a single rotationally symmetric ground state to degenerate ground states that spontaneously break rotational symmetry.",

author = "Tomoki Ozawa and Price, {Hannah M.} and Iacopo Carusotto",

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AB - We show how the weakly trapped Harper-Hofstadter model can be mapped onto a Harper-Hofstadter model in momentum space. In this momentum-space model, the band dispersion plays the role of the periodic potential, the Berry curvature plays the role of an effective magnetic field, the real-space harmonic trap provides the momentum-space kinetic energy responsible for the hopping, and the trap position sets the boundary conditions around the magnetic Brillouin zone. Spatially local interactions translate into nonlocal interactions in momentum space: within a mean-field approximation, we show that increasing interparticle interactions leads to a structural change of the ground state, from a single rotationally symmetric ground state to degenerate ground states that spontaneously break rotational symmetry.

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Momentum-space Harper-Hofstadter model

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