Dr Axel Kuhn

Controlled single-photon emission from a strongly coupled atom-cavity system

IQEC, International Quantum Electronics Conference Proceedings (2000) 170

Authors:

A Kuhn, M Hennrich, T Legero, G Rempe

Abstract:

Most schemes used for the generation of single photons rely on spontaneous emission events in parametric down conversion. A scheme is proposed for generating of emission of one photon into a single, predetermined mode of the radiation field in response to a trigger event. The photon is emitted from an atoms strongly coupled to a high-finesse optical cavity, and the trigger is a classical light pulse. Simulations show that the temporal behavior of the emission probability can be controlled, since it depends on both the cavity decay rate and the shape of the trigger pulse.

Vacuum-stimulated Raman scattering based on adiabatic passage in a high-finesse optical cavity

PHYSICAL REVIEW LETTERS 85:23 (2000) 4872-4875

Authors:

M Hennrich, T Legero, A Kuhn, G Rempe

Controlled generation of single photons from a strongly coupled atom-cavity system

APPLIED PHYSICS B-LASERS AND OPTICS 69:5-6 (1999) 373-377

Authors:

A Kuhn, M Hennrich, T Bondo, G Rempe

Neutral atoms prepared in Fock states of a one-dimensional harmonic potential

PHYSICAL REVIEW A 59:1 (1999) R8-R11

Authors:

I Bouchoule, H Perrin, A Kuhn, M Morinaga, C Salomon

Raman cooling of spin-polarized cesium atoms in a crossed dipole trap

EUROPHYSICS LETTERS 46:2 (1999) 141-147

Authors:

H Perrin, A Kuhn, I Bouchoule, T Pfau, C Salomon