Volker Karle, Mikhail Lemeshko, Adrien Bouhon, Robert-Jan Slager, F. Nur Ünal
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Anomalous multi-gap topological phases in periodically driven quantum rotors
We demonstrate that periodically driven quantum rotors provide a promising
and broadly applicable platform to implement multi-gap topological phases,
where groups of bands can acquire topological invariants due to non-Abelian
braiding of band degeneracies. By adiabatically varying the periodic kicks to
the rotor we find nodal-line braiding, which causes sign flips of topological
charges of band nodes and can prevent them from annihilating, indicated by
non-zero values of the %non-Abelian patch Euler class. In particular, we report
on the emergence of an anomalous Dirac string phase arising in the strongly
driven regime, a truly out-of-equilibrium phase of the quantum rotor. This
phase emanates from braiding processes involving all (quasienergy) gaps and
manifests itself with edge states at zero angular momentum. Our results reveal
direct applications in state-of-the-art experiments of quantum rotors, such as
linear molecules driven by periodic far-off-resonant laser pulses or artificial
quantum rotors in optical lattices, whose extensive versatility offers precise
modification and observation of novel non-Abelian topological properties.