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arxiv: 1905.06478 · v1 · pith:DNWL5LYJnew · submitted 2019-05-16 · ❄️ cond-mat.quant-gas · physics.atom-ph· quant-ph

Observing topological charges and dynamical bulk-surface correspondence with ultracold atoms

classification ❄️ cond-mat.quant-gas physics.atom-phquant-ph
keywords topologicaldynamicalchargesbulk-surfacecorrespondencebissphaseband
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In quenching a topological phase across phase transition, the dynamical bulk-surface correspondence emerges that the bulk topology of $d$-dimensional ($d$D) phase relates to the nontrivial pattern of quench dynamics emerging on $(d-1)$D subspace, called band inversion surfaces (BISs) in momentum space. Here we report the first experimental observation of the dynamical bulk-surface correspondence through measuring the topological charges in a 2D quantum anomalous Hall model realized in an optical Raman lattice. The system can be quenched with respect to every spin axis by suddenly varying the two-photon detuning or phases of the Raman couplings, in which the topological charges and BISs are measured dynamically by the time-averaged spin textures. We observe that the total charges in the region enclosed by BISs define a dynamical topological invariant, which equals the Chern index of the post-quench band. The topological charges relate to an emergent dynamical field which exhibits nontrivial topology on BIS, rendering the dynamical bulk-surface correspondence. This study opens a new avenue to explore topological phases dynamically.

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