Litcius/Paper detail

Order, chaos, and dimensionality transition in a system of swarmalators

Joao U. F. Lizárraga, Kevin O’Keeffe, Marcus A. M. de Aguiar

2024Physical review. E10 citationsDOI

Abstract

Similarly to sperm, where individuals self-organize in space while also striving for coherence in their tail swinging, several natural and engineered systems exhibit the emergence of swarming and synchronization. The arising and interplay of these phenomena have been captured by collectives of hypothetical particles named swarmalators, each possessing a position and a phase whose dynamics are affected reciprocally and also by the space-phase states of their neighbors. In this work, we introduce a solvable model of swarmalators able to move in two-dimensional spaces. We show that several static and active collective states can emerge and derive necessary conditions for each to show up as the model parameters are varied. These conditions elucidate, in some cases, the displaying of multistability among states. Notably, in the active regime, the system exhibits hyperchaos, maintaining spatial correlation under certain conditions and breaking it under others on what we interpret as a dimensionality transition.

Topics & Concepts

MultistabilityCurse of dimensionalityStatistical physicsPhase transitionKuramoto modelPhysicsSpace (punctuation)Parameter spaceCoherence (philosophical gambling strategy)Phase spaceComputer scienceTopology (electrical circuits)Synchronization (alternating current)MathematicsArtificial intelligenceQuantum mechanicsCombinatoricsNonlinear systemOperating systemStatisticsMicro and Nano RoboticsNonlinear Dynamics and Pattern FormationDiffusion and Search Dynamics