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A characteristic function approach to the Jaynes-Cummings model revivals

A two-level atom interacting with an electromagnetic mode in a cavity experiences population collapses and revivals. They are an indirect signature of the field quantization, and also hold information about the mode. Thus, they may be harnessed for quantum-state reconstruction. In this work, we study the revival structures with the characteristic function approach. The characteristic function is essentially a spectral decomposition of the photon-number probability distribution. Exploiting the characteristic function periodicity, we find that the atomic population inversion can be understood as the result of interference between a set of structures akin to a free quantum-mechanical wave packet, each structure corresponding to snapshots of this packet for different degrees of dispersion. When these structures do not overlap, each of which can be identified to one of the inversion revivals, in which case we may also retrieve the photon-number distribution.

preprint2016arXivOpen access
Hudson PimentaDaniel F. V. James
quant-ph
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Hudson PimentaDaniel F. V. James

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