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Non-Abelian gauge fields and topological insulators in shaken optical lattices

Time-periodic driving like lattice shaking offers a low-demanding method to generate artificial gauge fields in optical lattices. We identify the relevant symmetries that have to be broken by the driving function for that purpose and demonstrate the power of this method by making concrete proposals for its application to two-dimensional lattice systems: We show how to tune frustration and how to create and control band touching points like Dirac cones in the shaken kagomé lattice. We propose the realization of a topological and a quantum spin Hall insulator in a shaken spin-dependent hexagonal lattice. We describe how strong artificial magnetic fields can be achieved for example in a square lattice by employing superlattice modulation. Finally, exemplified on a shaken spin-dependent square lattice, we develop a method to create strong non-Abelian gauge fields.

preprint2012arXivOpen access
Philipp HaukeOlivier TielemanAlessio CeliChristoph ÖlschlägerJuliette SimonetJulian StruckMalte WeinbergPatrick WindpassingerKlaus SengstockMaciej LewensteinAndré Eckardt
cond-mat.str-elcond-mat.quant-gas
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Open access11 authors2 topics
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Philipp HaukeOlivier TielemanAlessio CeliChristoph ÖlschlägerJuliette SimonetJulian StruckMalte WeinbergPatrick WindpassingerKlaus SengstockMaciej LewensteinAndré Eckardt

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