Theory of quantum systems

Statistics of Schmidt coefficients and the simulability of complex quantum systems.

Physical review. E, Statistical, nonlinear, and soft matter physics 79:5 Pt 2 (2009) 056223

Authors:

Hannah Venzl, Andrew J Daley, Florian Mintert, Andreas Buchleitner

Abstract:

We show that the transition from regular to chaotic spectral statistics in interacting many-body quantum systems has an unambiguous signature in the distribution of Schmidt coefficients dynamically generated from a generic initial state, and thus limits the efficiency of the time-dependent density-matrix renormalization-group algorithm. We investigate this mechanism on the tilted Bose-Hubbard model; however the emergence of universal spectral properties allows translation of our conclusions to generic many-body quantum systems.

Alkaline-earth-metal atoms as few-qubit quantum registers.

Physical review letters 102:11 (2009) 110503

Authors:

AV Gorshkov, AM Rey, AJ Daley, MM Boyd, J Ye, P Zoller, MD Lukin

Abstract:

We propose and analyze a novel approach to quantum information processing, in which multiple qubits can be encoded and manipulated using electronic and nuclear degrees of freedom associated with individual alkaline-earth-metal atoms trapped in an optical lattice. Specifically, we describe how the qubits within each register can be individually manipulated and measured with subwavelength optical resolution. We also show how such few-qubit registers can be coupled to each other in optical superlattices via conditional tunneling to form a scalable quantum network. Finally, potential applications to quantum computation and precision measurements are discussed.

Atomic three-body loss as a dynamical three-body interaction.

Physical review letters 102:4 (2009) 040402

Authors:

AJ Daley, JM Taylor, S Diehl, M Baranov, P Zoller

Abstract:

We discuss how large three-body loss of atoms in an optical lattice can give rise to effective hard-core three-body interactions. For bosons, in addition to the usual atomic superfluid, a dimer superfluid can then be observed for attractive two-body interactions. The nonequilibrium dynamics of preparation and stability of these phases are studied in 1D by combining time-dependent density matrix renormalization group techniques with a quantum trajectories method.

Interference of interacting matter waves

(2008)

Authors:

Mattias Gustavsson, Elmar Haller, Manfred J Mark, Johann G Danzl, Russell Hart, Andrew J Daley, Hanns-Christoph Naegerl

Alkaline-Earth-Metal Atoms as Few-Qubit Quantum Registers

(2008)

Authors:

Alexey V Gorshkov, Ana Maria Rey, Andrew J Daley, Martin M Boyd, Jun Ye, Peter Zoller, Mikhail D Lukin