Non-perturbative approach for the time-dependent symmetry breaking

Abstract

We present a variational method which uses a quartic exponential function as a trial wave-function to describe time-dependent quantum mechanical systems. We introduce a new physical variable y which is appropriate to describe the shape of wave-packet, and calculate the effective action as a function of both the dispersion < q2> and y. The effective potential successfully describes the transition of the system from the false vacuum to the true vacuum. The present method well describes the long time evolution of the wave-function of the system after the symmetry breaking, which is shown in comparison with the direct numerical computations of wave-function.

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