Floquet-Aubry-André Localization in Driven Quasiperiodic Optical Lattices

Toshihiko Shimasaki; Peter Dotti; Max Prichard; Enrique Morell; David Weld

Floquet-Aubry-André Localization in Driven Quasiperiodic Optical Lattices

ORAL

Abstract

Optical lattice experiments are an ideal tool for exploring the interplay among disorder-induced localization, interaction-induced localization, and dynamical localization. We discuss experiments probing the response of a quantum gas in a tunable bichromatic lattice to strong phasonic [1] and dipolar modulation. Independent tuning of the quasi-disorder strength and the effective tunneling enables exploration of a wide parameter space lying between limiting cases such as Aubry-André localization (for zero drive strength) and dynamical localization (for a dipolar drive at zero quasi-disorder strength).

June 2, 2020, 2:06 PM – June 2, 2020, 2:18 PM

Authors

Toshihiko Shimasaki

University of California, Santa Barbara
Peter Dotti

University of California, Santa Barbara
Max Prichard

University of California, Santa Barbara
Enrique Morell

University of California, Santa Barbara
David Weld

University of California, Santa Barbara