Collision, mechanism, and Z4 operation among chiral and nonchiral kinks in coupled double-field φ4 model

Abstract

In this work, we investigate collision processes and their mechanism among chiral and nonchiral kinks in the coupled double-field φ4 model and show that the kink collisions follow the Z4 abelian group operation. Unlike the single-field φ4 model, this model has twelve kinks, which are classified into chiral and nonchiral kinks depending on their topological chiral charges. This enriches the variety of the collision processes. From the numerical simulation, we observe three kinds of collisions depending on the initial configuration and initial velocities of colliding kinks. During a collision, the topological chiral charges of kinks switch while preserving the Z4 abelian group operation. To understand the collision and chirality switching mechanism, we investigate the detailed collision process, energy densities, the field gradients, internal modes, energy exchange between two fields, coherent vibration of two bions located in different fields, and the orbits of colliding kinks in the two-dimensional field space.