Quantum Dynamics of Ultracold Lithium in Optical Lattices

Nicole N Halawani; Xiao Chai; Jeremy L Tanlimco; Eber Nolasco-Martinez; Xuanwei Liang; Eric Zhu; David M Weld

Quantum Dynamics of Ultracold Lithium in Optical Lattices

POSTER

Abstract

Control of quantum gases through periodic driving offers a rich platform to engineer novel quantum phases and explore non-equilibrium quantum dynamics. We present recent progress in utilizing Bose-Einstein condensates of lithium trapped in an optical lattice to probe such dynamics, including trapped atom interferometry via Floquet-Bloch band control for high-precision sensing, the quantum Kapitza pendulum in a strongly driven pre-thermal regime, and boundary-modulated quantum gases.

Presenters

Nicole N Halawani

University of California, Santa Barbara

Authors

Nicole N Halawani

University of California, Santa Barbara
Xiao Chai

University of California, Santa Barbara
Jeremy L Tanlimco

University of California, Santa Barbara
Eber Nolasco-Martinez

University of California, Santa Barbara
Xuanwei Liang

University of California, Santa Barbara
Eric Zhu

University of California, Santa Barbara
David M Weld

University of California, Santa Barbara