Dr Axel Kuhn

Strongly Coupled Atom–Cavity Systems

Chapter in , Wiley (2005) 223-236

Authors:

Axel Kuhn, Markus Hennrich, Gerhard Rempe

Controlled delivery and deterministic coupling of individual atoms to a high-finesse optical cavity

Institute of Electrical and Electronics Engineers (IEEE) (2005) 310

Authors:

S Nussmann, M Hijlkema, B Weber, A Kuhn, G Rempe

Cooling and trapping in cavity quantum electrodynamics

Laser Spectroscopy - Proceedings of the 17th International Conference, ICOLS 2005 (2005) 178-188

Authors:

G Rempe, M Hijlkema, A Kuhn, P Maunz, K Murr, S Nußmann, PWH Pinkse, T Puppe, I Schuster, N Syassen, B Weber

Abstract:

Recently discovered light forces in high-finesse microcavities are ideal to capture single atoms, cool them to ultralow temperatures and trap them for long time intervals. Individual atoms at rest and strongly coupled to a cavity are interesting in quantum information science. Cavity cooling might also be useful to produce cold samples of particles like molecules which have no closed cycling transition for laser cooling. © 2005 World Scientific Publishing Co. Pte. Ltd.

Deterministically controlled coupling of individual atoms to a high-finesse optical cavity

Optics InfoBase Conference Papers (2005)

Authors:

A Kuhn, S Nußmann, M Hijlkema, B Weber, G Rempe

Abstract:

Quantum computing with atoms in optical cavities requires a precisely tunable atomcavity coupling. This has now been achieved by means of a dipole-force trap transporting single atoms perpendicular to the cavity axis. © 2003 Optical Society of America.

Generation of single photons of alternating polarization

Institute of Electrical and Electronics Engineers (IEEE) (2005) 265

Authors:

T Wilk, H Specht, A Kuhn, G Rempe