Abstract
Recent experimental advances1 in the creation of Rydberg atomic beams and ultra-cold microwave cavities are leading to the threshold of observation of quantum coherence phenomena, which have been seen only in numerical simulation so far.2 These phenomena, which are features of single- atom/single-mode interactions, demonstrate the capacity of very simple interacting systems for intrasystem randomization, during their temporal evolution, without the benefit of an external reservoir. It appears that these phenomena may first be observed in the context of quantum electronics/quantum optics experiments.
© 1984 Optical Society of America
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