Controlled transport of solitons and bubbles using external perturbations

TL;DR

This paper explores how external perturbations can control the movement of solitons and bubbles in various systems, including experimental laser-induced vapor bubbles, highlighting new methods for their stabilization and transport.

Contribution

It demonstrates the feasibility of transporting solitons and bubbles using external waves and provides experimental evidence with laser-induced vapor bubbles.

Findings

Solitons can be transported with external waves under specific conditions.

External perturbations can stabilize and move vapor bubbles in liquids.

Experimental validation with laser-induced vapor bubbles supports the theoretical results.

Abstract

We investigate generalized soliton-bearing systems in the presence of external perturbations. We show the possibility of the transport of solitons using external waves, provided the waveform and its velocity satisfy certain conditions. We also investigate the stabilization and transport of bubbles using external perturbations in 3D-systems. We also present the results of real experiments with laser-induced vapor bubbles in liquids.