Theory of quantum systems

Topological edge states and Aharanov-Bohm caging with ultracold atoms carrying orbital angular momentum

(2018)

Authors:

G Pelegrí, AM Marques, RG Dias, AJ Daley, J Mompart, V Ahufinger

Topological edge states with ultracold atoms carrying orbital angular momentum in a diamond chain

(2018)

Authors:

G Pelegrí, AM Marques, RG Dias, AJ Daley, V Ahufinger, J Mompart

Interspecies entanglement with impurity atoms in a lattice gas

(2018)

Authors:

Saubhik Sarkar, Suzanne McEndoo, Dominik Schneble, Andrew J Daley

Particle statistics and lossy dynamics of ultracold atoms in optical lattices

Physical Review A American Physical Society (APS) 97:5 (2018) 053614

Authors:

J Yago Malo, EPL van Nieuwenburg, MH Fischer, AJ Daley

Dynamical Disentangling and Cooling of Atoms in Bilayer Optical Lattices.

Physical review letters 120:6 (2018) 060401

Authors:

A Kantian, S Langer, AJ Daley

Abstract:

We show how experimentally available bilayer lattice systems can be used to prepare quantum many-body states with exceptionally low entropy in one layer, by dynamically disentangling the two layers. This disentangling operation moves one layer-subsystem A-into a regime where excitations in A develop a single-particle gap. As a result, this operation maps directly to cooling for subsystem A, with entropy being shuttled to the other layer. For both bosonic and fermionic atoms, we study the corresponding dynamics showing that disentangling can be realized cleanly in ongoing experiments. The corresponding entanglement entropies are directly measurable with quantum gas microscopes, and, as a tool for producing lower-entropy states, this technique opens a range of applications beginning with simplifying production of magnetically ordered states of bosons and fermions.