The Revival Structure of Rydberg Wave Packets Beyond the Revival Time

Abstract

After a Rydberg wave packet forms, it is known to undergo a series of collapses and revivals within a time period called the revival time t rev, at the end of which it resembles its original shape. We study the behavior of Rydberg wave packets on time scales much greater than t rev. We find that after a few revival cycles the wave packet ceases to reform at multiples of the revival time. Instead, a new series of collapses and revivals commences, culminating after a time period t sr t rev with the formation of a wave packet that more closely resembles the initial packet than does the full revival at time t rev. Furthermore, at times that are rational fractions of t sr, we show that the motion of the wave packet is periodic with periodicities that can be expressed as fractions of the revival time t rev. These periodicities indicate a new type of fractional revival, occurring for times much greater than t rev. We also examine the effects of quantum defects and laser detunings on the revival structure of Rydberg wave packets for alkali-metal atoms.

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