Entanglement and decoherence of N atoms and a mesoscopic field in a cavity

Entanglement and decoherence of N atoms and a mesoscopic field in a cavity

We investigate the behavior of N atoms resonantly coupled to a single electromagnetic field mode sustained by a high quality cavity, containing a mesoscopic coherent field. We show with a simple effective hamiltonian model that the strong coupling between the cavity and the atoms produces an atom-fi...

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Veröffentlicht in:Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 2006-09, Vol.74 (3), Article 033802
Hauptverfasser: Meunier, T., Le Diffon, A., Ruef, C., Degiovanni, P., Raimond, J.-M.
Format: Artikel
Sprache:eng
Schlagworte:
ATOMIC AND MOLECULAR PHYSICS
ATOMS
BOSE-EINSTEIN CONDENSATION
COMPARATIVE EVALUATIONS
Condensed Matter
ELECTROMAGNETIC FIELDS
HAMILTONIANS
Mesoscopic Systems and Quantum Hall Effect
MONTE CARLO METHOD
OSCILLATIONS
PERIODICITY
PHOTONS
Physics
QUALITY FACTOR
QUANTUM ENTANGLEMENT
Quantum Physics
RELAXATION
RYDBERG STATES
SUPERCONDUCTING CAVITY RESONATORS
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Zusammenfassung:We investigate the behavior of N atoms resonantly coupled to a single electromagnetic field mode sustained by a high quality cavity, containing a mesoscopic coherent field. We show with a simple effective hamiltonian model that the strong coupling between the cavity and the atoms produces an atom-field entangled state, involving N+1 nearly-coherent components slowly rotating at different paces in the phase plane. The periodic overlap of these components results in a complex collapse and revival pattern for the Rabi oscillation. We study the influence of decoherence due to the finite cavity quality factor. We propose a simple analytical model, based on the Monte Carlo approach to relaxation. We compare its predictions with exact calculations and show that these interesting effects could realistically be observed on a two or three atoms sample in a 15 photons field with circular Rydberg atoms and superconducting cavities.
ISSN:1050-2947
1094-1622
DOI:10.1103/PhysRevA.74.033802