Solitons: Kinks, Collisions and Breathers

TL;DR

This paper explores 1D soliton solutions of the Sine-Gordon equation, including kinks, multi-kinks, collisions, and breathers, highlighting their properties, conservation laws, and the discrete model extension.

Contribution

It presents a method for finding multi-kink solutions without inverse scattering, and analyzes the properties and interactions of solitons and breathers in both continuous and discrete models.

Findings

Multi-kink solutions obtained via separation of variables.

Collision dynamics explained by topological charges.

Bound state breather properties and energies analyzed.

Abstract

In this report, the various 1D single soliton and multi-soliton solutions of the Sine-Gordon equation are explored. First the topological kink solitons and their properties for the Sine-Gordon, as well as the $\phi^{4}$ model are investigated. This includes energy and momentum conservation laws for both models, as well as static kinks and antikinks. The Bogomol'nyi equation and the importance of Lorentz invariance are also discussed. Then in the second half, the focus is on Sine-Gordon multi-kink solutions, which are found by a separation of variables method rather than using inverse scattering or B\"acklund transforms. These kink-kink and kink-antikink collisions are explained by considering topological charges and interaction energies. The special bound state dynamical breather soliton is obtained and properties such as the binding energy of the breather are presented. Following this, the Frenkel-Kontorova model is explored, leading to the discrete Sine-Gordon model and the introduction of discrete breathers.