Theory of quantum systems

Interplay between coherent and dissipative dynamics of bosonic doublons in an optical lattice

Physical Review Research American Physical Society (APS) 2:4 (2020) 043050

Authors:

MJ Mark, S Flannigan, F Meinert, JP D'Incao, AJ Daley, H-C Nägerl

Collisionally Inhomogeneous Bose-Einstein Condensates with a Linear Interaction Gradient.

Physical review letters 125:18 (2020) 183602

Authors:

Andrea Di Carli, Grant Henderson, Stuart Flannigan, Craig D Colquhoun, Matthew Mitchell, Gian-Luca Oppo, Andrew J Daley, Stefan Kuhr, Elmar Haller

Abstract:

We study the evolution of a collisionally inhomogeneous matter wave in a spatial gradient of the interaction strength. Starting with a Bose-Einstein condensate with weak repulsive interactions in quasi-one-dimensional geometry, we monitor the evolution of a matter wave that simultaneously extends into spatial regions with attractive and repulsive interactions. We observe the formation and the decay of solitonlike density peaks, counterpropagating self-interfering wave packets, and the creation of cascades of solitons. The matter-wave dynamics is well reproduced in numerical simulations based on the nonpolynomial Schrödinger equation with three-body loss, allowing us to better understand the underlying behavior based on a wavelet transformation. Our analysis provides new understanding of collapse processes for solitons, and opens interesting connections to other nonlinear instabilities.

Measurement of Identical Particle Entanglement and the Influence of Antisymmetrization.

Physical review letters 125:18 (2020) 180402

Authors:

JH Becher, E Sindici, R Klemt, S Jochim, AJ Daley, PM Preiss

Abstract:

We explore the relationship between symmetrization and entanglement through measurements on few-particle systems in a multiwell potential. In particular, considering two or three trapped atoms, we measure and distinguish correlations arising from two different physical origins: antisymmetrization of the fermionic wave function and interaction between particles. We quantify this through the entanglement negativity of states, and the introduction of an antisymmetric negativity, which allows us to understand the role that symmetrization plays in the measured entanglement properties. We apply this concept both to pure theoretical states and to experimentally reconstructed density matrices of two or three mobile particles in an array of optical tweezers.

Dynamics of rotated spin states and magnetic ordering with two-component bosonic atoms in optical lattices

Physical Review A American Physical Society (APS) 102:2 (2020) 023321

Authors:

Araceli Venegas-Gomez, Anton S Buyskikh, Johannes Schachenmayer, Wolfgang Ketterle, Andrew J Daley

Interspecies entanglement with impurity atoms in a lattice gas

New Journal of Physics IOP Publishing 22:8 (2020) 083017

Authors:

S Sarkar, S McEndoo, D Schneble, AJ Daley