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Tunable colloidal swarmalators with hydrodynamic coupling.

Veit-Lorenz Heuthe1, Priyanka Iyer2, Gerhard Gompper2

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Researchers created a controllable swarmalator system using feedback-controlled colloidal particles. This system demonstrates how synchronization and spatial dynamics co-evolve, leading to novel collective behaviors in active matter.

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Area of Science:

  • Physics
  • Active Matter Physics
  • Complex Systems

Background:

  • Swarmalators integrate swarming and synchronization, crucial for systems with coupled spatial and internal dynamics.
  • Existing theoretical models lack experimental validation with tunable coupling.
  • Applications span biological systems and engineered robotic swarms.

Purpose of the Study:

  • To experimentally realize and control swarmalator systems.
  • To investigate the co-evolution of synchronization and spatial dynamics.
  • To explore novel collective states and dynamic regimes.

Main Methods:

  • Utilized feedback-controlled, self-propelling colloidal particles orbiting reference points.
  • Employed hydrodynamic interactions for inter-particle coupling.
  • Manipulated a single control parameter to tune interactions between attractive and repulsive regimes.
  • Incorporated squirmer and lubrication forces in simulations.

Main Results:

  • Demonstrated co-evolution of synchronization and spatial dynamics.
  • Observed collective states: synchronized clusters, rotating aggregates, and dispersive phases.
  • Achieved dynamic regimes inaccessible with static interactions.
  • Identified a new synchronization-dependent interaction channel.

Conclusions:

  • The developed platform offers a controllable experimental testbed for swarmalator physics.
  • The findings provide insights into self-organizing active matter.
  • This work paves the way for designing novel self-organizing active matter systems.