Theory of quantum systems

Driven-dissipative many-body pairing states for cold fermionic atoms in an optical lattice

New Journal of Physics IOP Publishing 14:5 (2012) 055002

Authors:

W Yi, S Diehl, AJ Daley, P Zoller

Preparation and spectroscopy of a metastable Mott-insulator state with attractive interactions.

Physical review letters 108:21 (2012) 215302

Authors:

MJ Mark, E Haller, K Lauber, JG Danzl, A Janisch, HP Büchler, AJ Daley, H-C Nägerl

Abstract:

We prepare and study a metastable attractive Mott-insulator state formed with bosonic atoms in a three-dimensional optical lattice. Starting from a Mott insulator with Cs atoms at weak repulsive interactions, we use a magnetic Feshbach resonance to tune the interactions to large attractive values and produce a metastable state pinned by attractive interactions with a lifetime on the order of 10 s. We probe the (de)excitation spectrum via lattice modulation spectroscopy, measuring the interaction dependence of two- and three-body bound-state energies. As a result of increased on-site three-body loss we observe resonance broadening and suppression of tunneling processes that produce three-body occupation.

Preparation and spectroscopy of a metastable Mott insulator state with attractive interactions

(2012)

Authors:

Manfred J Mark, Elmar Haller, Katharina Lauber, Johann G Danzl, Alexander Janisch, Hans Peter Büchler, Andrew J Daley, Hanns-Christoph Nägerl

Quantum computing and quantum simulation with group-II atoms

Quantum Information Processing Springer Nature 10:6 (2011) 865

Driven-dissipative many-body pairing states for cold fermionic atoms in an optical lattice

(2011)

Authors:

W Yi, S Diehl, AJ Daley, P Zoller