Davisson-Germer Prize in Atomic or Surface Physics: Exciting 1D Bose gases

David S. Weiss

Davisson-Germer Prize in Atomic or Surface Physics: Exciting 1D Bose gases

ORAL · Invited

Abstract

Experiments with nearly integrable quantum systems taken out of equilibrium have made clear that conventional statistical mechanics does not always describe the steady state of an isolated many-body system. These experiments have deepened our understanding of what it means for any quantum system to thermalize. I will briefly explain the two previous sentences and then touch on the frontier of experiment and theory in out-of-equilibrium nearly integrable many-body quantum systems, focusing on our work with 1D Bose gases.

May 31, 2022, 8:00 AM – May 31, 2022, 8:30 AM

Publication: T. Kinoshita, T. Wenger, and D.S. Weiss, "A quantum Newton's cradle", Nature 440, 900 (2006).<br>J. Wilson, N. Malvania, Y. Le, Y. Zhang, M. Rigol and D.S.Weiss, "Observation of dynamical fermionization", Science 367, 1461 (2020). <br>N. Malvania, Y. Zhang, Y. Le, J. Dubail, M. Rigol and D.S. Weiss, "Generalized hydrodynamics in strongly interacting 1D Bose gases", Science 373, 1129 (2021).

Presenters

David S. Weiss

Pennsylvania State University

Authors

David S. Weiss

Pennsylvania State University