David Wellnitz, Gustavo A. Domínguez-Castro, Thomas Bilitewski, Monika Aidelsburger, Ana Maria Rey, Luis Santos
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Emergent interaction-induced topology in Bose-Hubbard ladders
We investigate the quantum many-body dynamics of bosonic atoms hopping in a
two-leg ladder with strong on-site contact interactions. We observe that when
the atoms are prepared in a staggered pattern with pairs of atoms on every
other rung, singlon defects, i.e.~rungs with only one atom, can localize due to
an emergent topological model, even though the underlying model in the absence
of interactions admits only topologically trivial states. This emergent
topological localization results from the formation of a zero-energy edge mode
in an effective lattice formed by two adjacent chains with alternating strong
and weak hoping links (Su-Schrieffer-Heeger chains) and opposite staggering
which interface at the defect position. Our findings open the opportunity to
dynamically generate non-trivial topological behaviors without the need for
complex Hamiltonian engineering.
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