Theory of quantum systems

Entanglement Growth in Quench Dynamics with Variable Range Interactions

Physical Review X American Physical Society (APS) 3:3 (2013) 031015

Authors:

J Schachenmayer, BP Lanyon, CF Roos, AJ Daley

Steady-state many-body entanglement of hot reactive fermions.

Physical review letters 109:23 (2012) 230501

Authors:

Michael Foss-Feig, Andrew J Daley, James K Thompson, Ana Maria Rey

Abstract:

Entanglement is typically created via systematic intervention in the time evolution of an initially unentangled state, which can be achieved by coherent control, carefully tailored nondemolition measurements, or dissipation in the presence of properly engineered reservoirs. In this Letter we show that two-component Fermi gases at ~μK temperatures naturally evolve, in the presence of reactive two-body collisions, into states with highly entangled (Dicke-type) spin wave functions. The entanglement is a steady-state property that emerges-without any intervention-from uncorrelated initial states, and could be used to improve the accuracy of spectroscopy in experiments with fermionic alkaline earth atoms or fermionic ground state molecules.

Noise- and disorder-resilient optical lattices

Physical Review A American Physical Society (APS) 86:5 (2012) 051605

Authors:

Hannes Pichler, Johannes Schachenmayer, Jonathan Simon, Peter Zoller, Andrew J Daley

Dynamics of an impurity in a one-dimensional lattice

(2012)

Authors:

Francesco Massel, Adrian Kantian, Andrew J Daley, Thierry Giamarchi, Päivi Törmä

Steady-state many-body entanglement of hot reactive fermions

(2012)

Authors:

Michael Foss-Feig, Andrew J Daley, James K Thompson, Ana Maria Rey