Topological edge states and Aharanov-Bohm caging with ultracold atoms carrying orbital angular momentum

A. J. Daley; A. M. Marques; G. Pelegr\'i; J. Mompart; R. G. Dias; V. Ahufinger

arxiv: 1807.08096 · v1 · pith:XT7HUNFVnew · submitted 2018-07-21 · ⚛️ physics.atom-ph · cond-mat.quant-gas

Topological edge states and Aharanov-Bohm caging with ultracold atoms carrying orbital angular momentum

G. Pelegr\'i , A. M. Marques , R. G. Dias , A. J. Daley , J. Mompart , V. Ahufinger This is my paper

classification ⚛️ physics.atom-ph cond-mat.quant-gas

keywords statesaharanov-bohmangularatomscagingedgelatticemomentum

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We show that bosonic atoms loaded into orbital angular momentum $l=1$ states of a lattice in a diamond-chain geometry provides a flexible and simple platform for exploring a range of topological effects. This system exhibits robust edge states, and the relative phases arising naturally in the tunnelling amplitudes lead to the appearance of Aharanov-Bohm caging in the lattice. We discuss how these properties can be realised and observed in ongoing experiments.

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Topological edge states and Aharanov-Bohm caging with ultracold atoms carrying orbital angular momentum

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