Statistical Transmutation in Periodically Driven Optical Lattices
ORAL
Abstract
We show that interacting bosons in a periodically driven two dimensional (2D) optical lattice may effectively exhibit fermionic statistics. The phenomenon is similar to the celebrated Tonks-Girardeau regime in 1D. The Floquet band of a driven lattice develops the moat shape, i.e., a minimum along a closed contour in the Brillouin zone. Such degeneracy of the kinetic energy favors fermionic quasiparticles. The statistical transmutation is achieved by the Chern-Simons flux attachment similar to the fractional quantum Hall case. We show that the velocity distribution of the released bosons is a sensitive probe of the fermionic nature of their stationary Floquet state.
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Authors
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Tigran Sedrakyan
Fine Theoretical Physics Institute, Univ of Minnesota and Physics Frontier Center, Joint Quantum Institute, Univ of Maryland, W. I. Fine Theoretical Physics Institute, University of Minnesota, Joint Quantum Institute, University of Maryland - College Park
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Victor Galitski
Univ of Maryland-College Park, University of Maryland, College Park, Condensed Matter Theory Center and Joint Quantum Institute, University of Maryland, College Park, Joint Quantum Institute, University of Maryland - College Park
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Alex Kamenev
W. I. Fine Theoretical Physics Institute, University of Minnesota, Univ of Minnesota - Twin Cities, University of Minnesota