Amplitude responses of swarmalators

TL;DR

This paper explores the amplitude responses of swarmalators using amplitude oscillators like Rossler, revealing new states and behaviors beyond traditional phase oscillator models, including chaotic dynamics.

Contribution

It introduces a novel model incorporating amplitude oscillators into swarmalator dynamics, expanding understanding of their complex behaviors.

Findings

Periodic oscillator mimics previous phase oscillator patterns

Chaotic oscillator reveals new fascinating states

Chaotic dynamics influence spatial and internal behaviors

Abstract

Swarmalators are entities that swarm through space and sync in time and are potentially considered to replicate the complex dynamics of many real-world systems. So far, the internal dynamics of swarmalators have been taken as a phase oscillator inspired by the Kuramoto model. Here, for the first time, we examine the internal dynamics utilizing an amplitude oscillator capable of exhibiting periodic and chaotic behaviors. To incorporate the dual interplay between spatial and internal dynamics, we propose a general model that keeps the properties of swarmalators intact. This adaptation calls for a detailed study which we present in this paper. We establish our study with the Rossler oscillator by taking parameters from both the chaotic and periodic regions. While the periodic oscillator mimics most of the patterns in the previous phase oscillator model, the chaotic oscillator brings some new fascinating states.