Cooperative fluorescence effects for dipole-dipole interacting systems with experimentally relevant level configurations
Abstract
The mutual dipole-dipole interaction of atoms in a trap can affect their fluorescence. Extremely large effects were reported for double jumps between different intensity periods in experiments with two and three Ba+ ions for distances in the range of about ten wave lengths of the strong transition while no effects were observed for Hg+ at 15 wave lengths. In this theoretical paper we study this question for configurations with three and four levels which model those of Hg+ and Ba+, respectively. For two systems in the Hg+ configuration we find cooperative effects of up to 30% for distances around one or two wave lengths, about 5% around ten wave lengths, and, for larger distances in agreement with experiments, practically none. This is similar for two V systems. However, for two four-level configurations, which model two Ba+ ions, cooperative effects are practically absent, and this latter result is at odds with the experimental findings for Ba+.
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