Floquet Engineering and Thermodynamics with Ultracold Lithium

Eber Nolasco-Martinez; Ethan Q Simmons; Roshan Sajjad; Jeremy Tanlimco; Alec J Cao; Hector Mas; Toshihiko Shimasaki; Hasan E Kondakci; David M Weld

Floquet Engineering and Thermodynamics with Ultracold Lithium

POSTER

Abstract

We present results of recent experiments on quantum thermodynamics and thermalization using ultracold lithium BECs. We report the first experimental observation and characterization of the quantum boomerang effect, using an atom-optics kicked rotor realized with a pulsed optical lattice. Separately, we discuss progress towards studying quantum thermodynamic engines and realizing trapped-atom interferometry in “magic” Floquet-Bloch bands.

Publication: A. Cao, R. Sajjad, H. Mas, E. Q. Simmons, J. L. Tanlimco, E. Nolasco-Martinez, T. Shimasaki, H. E. Kondakci, V. Galitski, and D. M. Weld, Interaction-driven breakdown of dynamical localization in a kicked quantum gas (2021), arXiv:2106.09698 [cond-mat.quant-gas].<br><br>R. Sajjad, J. L. Tanlimco, H. Mas, A. Cao, E. Nolasco-Martinez, E. Q. Simmons, F. L. N. Santos, P. Vignolo, T. Macrì, and D. M. Weld, Observation of the quantum boomerang effect (2021), arXiv:2109.00696 [cond-mat.quant-gas].

Presenters

Eber Nolasco-Martinez

University of California, Santa Barbara

Authors

Eber Nolasco-Martinez

University of California, Santa Barbara
Ethan Q Simmons

University of California, Santa Barbara
Roshan Sajjad

University of California, Santa Barbara
Jeremy Tanlimco

University of California, Santa Barbara
Alec J Cao

Cavendish Laboratory, University of Cambridge, University of Cambridge
Hector Mas

University of California, Santa Barbara
Toshihiko Shimasaki

University of California, Santa Barbara
Hasan E Kondakci

University of California, Santa Barbara
David M Weld

University of California, Santa Barbara, UCSB