Self-synchronization and dissipation-induced threshold in collective atomic recoil lasing

Self-synchronization and dissipation-induced threshold in collective atomic recoil lasing

Networks of globally coupled oscillators exhibit phase transitions from incoherent to coherent states. Atoms interacting with the counterpropagating modes of a unidirectionally pumped high-finesse ring cavity form such a globally coupled network. The coupling mechanism is provided by collective atom...

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Veröffentlicht in:Physical review letters 2004-08, Vol.93 (8), p.083601.1-083601.4, Article 083601
Hauptverfasser: VON CUBE, C, SLAMA, S, KRUSE, D, ZIMMERMANN, C, COURTEILLE, Ph. W, ROBB, G. R. M, PIOVELLA, N, BONIFACIO, And R
Format: Artikel
Sprache:eng
Schlagworte:
Atomic and molecular physics
Atomic properties and interactions with photons
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Mechanical effects of light on atoms, molecules, electrons, and ions
Optical cooling of atoms
trapping
Optics
Photon interactions with atoms
Physics
Quantum optics
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Zusammenfassung:Networks of globally coupled oscillators exhibit phase transitions from incoherent to coherent states. Atoms interacting with the counterpropagating modes of a unidirectionally pumped high-finesse ring cavity form such a globally coupled network. The coupling mechanism is provided by collective atomic recoil lasing, i.e., cooperative Bragg scattering of laser light at an atomic density grating, which is self-induced by the laser light. Under the rule of an additional friction force, the atomic ensemble is expected to undergo a phase transition to a state of synchronized atomic motion. We present the experimental investigation of this phase transition by studying the threshold behavior of this lasing process.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.93.083601