Theory of quantum systems

Defect-suppressed atomic crystals in an optical lattice.

Physical review letters 91:11 (2003) 110403

Authors:

P Rabl, AJ Daley, PO Fedichev, JI Cirac, P Zoller

Abstract:

We present a coherent filtering scheme which dramatically reduces the site occupation number defects for atoms in an optical lattice by transferring a chosen number of atoms to a different internal state via adiabatic passage. With the addition of superlattices it is possible to engineer states with a specific number of atoms per site (atomic crystals), which are required for quantum computation and the realization of models from condensed matter physics, including doping and spatial patterns. The same techniques can be used to measure two-body spatial correlation functions.

Single Atom Cooling by Superfluid Immersion: A Non-Destructive Method for Qubits

(2003)

Authors:

AJ Daley, PO Fedichev, P Zoller

Defect-Suppressed Atomic Crystals in an Optical Lattice

(2003)

Authors:

P Rabl, AJ Daley, PO Fedichev, JI Cirac, P Zoller

The Effect of Amplitude and Period Noise on Diffusion Structures in the Atom Optics Kicked Rotor

Institute of Electrical and Electronics Engineers (IEEE) (2003) 371-371

Authors:

MP Sadgrove, AJ Daley, A Hilliard, RNC Gray, SM Tan, AS Parkins, R Leonhardt

Early time diffusion for the quantum kicked rotor with narrow initial momentum distributions.

Physical review. E, Statistical, nonlinear, and soft matter physics 66:5 Pt 2 (2002) 056210

Authors:

AJ Daley, AS Parkins

Abstract:

We investigate analytically and numerically early-time momentum diffusion rates for the delta-kicked rotor across the quantum to classical transition, i.e., as increased total system action produces more macroscopic dynamics. For sufficiently narrow initial momentum distributions we find a rich structure of resonances in these diffusion rates as a function of the effective Planck's constant. Our study is set in the physical context of the atom optics kicked rotor, and numerical simulations confirm that the resonances persist with kicks of finite duration and with other typical experimental imperfections, such as spontaneous emission noise. Our results should be testable in experiments where narrow initial momentum distributions are prepared using, for example, velocity selective Raman transitions or Bose-Einstein condensates.