The spreading of wavepackets in quantum mechanics

Abstract

For a wavepacket representing a particle subject to a conservative force consideration is given to the evolution in time of the mean position and momentum and to the evolution of the spread of these quantities as measured by the mean square deviation from the mean. A closed system of equations involving these spreads is obtained by expanding the potential in powers about the mean position and by neglecting terms of third order or higher in the deviations from the mean, an approximation appropriate when the force does not vary too much over the width of the packet. These equations are solved in terms of the trajectories of a classical time-dependent oscillator. These trajectories can be found by differentiation of the trajectories for the force under consideration. In more than one dimension, or for more than one particle, the appropriate generalisation of the spread is the set of second-order correlations.