Numerical simulations of kink scattering in a λ-parameterized potential show non-monotonic critical velocities for small kinks, reduced resonance at large λ, and preferential production of large kinks from small-kink collisions at low λ.
A new look at the double sine-Gordon kink-antikink scattering
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abstract
We study the kink-antikink scattering within the double sine-Gordon model. In the numerical simulations we found a critical value $v_{cr}$ of the initial velocity $v_{in}$, which separates two different scenarios: at $v_{in}<v_{cr}$ the kinks capture each other and form a bound state, while at $v_{in}>v_{cr}$ the kinks pass through each other and escape to infinities. We obtain non-monotonous dependence of $v_{cr}$ on the model parameter $R$. Besides that, at some initial velocities below $v_{cr}$ we observe formation and interaction of the so-called oscillons (new phenomenon), as well as escape windows (well-known phenomenon).
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Nonlinear Dynamics of Kink Configurations: From Small to Large Kink Collisions
Numerical simulations of kink scattering in a λ-parameterized potential show non-monotonic critical velocities for small kinks, reduced resonance at large λ, and preferential production of large kinks from small-kink collisions at low λ.