Kink-Antikink Formation from an Oscillation Mode by Sudden Distortion of the Evolution Potential

Abstract

We demonstrate numerically that an oscillation mode in 1+1 dimensions (eg a breather or an oscillon) can decay into a kink-antikink pair by a sudden distortion of the evolution potential which occurs within a certain time or space domain. In particular, we consider the transition of a sine-Gordon potential into a 4 potential. The breather field configuration is assumed to initially evolve in a sine-Gordon potential with velocity v and oscillation frequency ω. We then consider two types of numerical experiments: a. An abrupt transition of the potential to a 4 form at t0=0 over the whole 1-dimensional lattice and b. The impact of the breather on a region x>x0=0 where the potential has the 4 form which is different from the sine-Gordon form valid at x<x0=0. We find that in both cases there is a region of parameters (v,ω) such that the breather decays to a kink-antikink pair. This region of parameters for kink-antikink formation is qualitatively similar with the parameter region where the energy of the breather exceeds the energy of the kink-antikink pair in the 4 potential. We demonstrate that the same mechanism for soliton formation is realized when using a gaussian oscillator (oscillon) instead of a breather. We briefly discuss the implications of our results for realistic experiments as well as their extension to soliton formation in two and three space dimensions.