Exploring driven quantum matter with bosonic lithium

Eber Nolasco-Martinez; Jeremy L Tanlimco; XIAO CHAI; Xuanwei Liang; Roshan Sajjad; Ethan Q Simmons; David M Weld

Exploring driven quantum matter with bosonic lithium

POSTER

Abstract

We report progress in experiments using bosonic lithium, useful for its low mass and tunable interactions, to explore disparate regimes of periodically driven quantum matter: adiabatic thermodynamic engine cycles with a Bose-condensed working fluid; Floquet engineering of a novel platform for continuously-trapped atom interferometry; the quantum Kapitza pendulum in a strongly-driven prethermal regime; and boundary-modulated quantum gases.

Publication: Thermodynamic engine with a quantum degenerate working fluid. E.Q. Simmons, R. Sajjad, K. Keithley, H. Mas, J.L. Tanlimco, E. Nolasco-Martinez, Y. Bai, G.H. Fredrickson, and D.M. Weld. Phys. Rev. Research 5, L042009 (2023).

Presenters

Eber Nolasco-Martinez

University of California, Santa Barbara

Authors

Eber Nolasco-Martinez

University of California, Santa Barbara
Jeremy L Tanlimco

University of California, Santa Barbara
XIAO CHAI

Georgia Institute of Technology
Xuanwei Liang

University of California, Santa Barbara
Roshan Sajjad

University of California, Santa Barbara
Ethan Q Simmons

University of California, Santa Barbara
David M Weld

UC Santa Barbara, University of California Santa Barbara, University of California, Santa Barbara