Random Organization in Periodically Driven Systems
Original entry by Sagar Bhandari, APPHY 225 Fall 2010
Random Organization in Periodically Driven Systems, Laurent Corte, Paul M. Chaikin, J.P. Gollub, and David J. Pine, Nature Physics 4, 420 (2008).
self-organization, periodically driven, particle suspensions
In this paper, the authors present a model for describing the self organization produced by irreversible collisions which generally produce chaotic dynamics. The authors mention that such a self organization can lead to a non-fluctuating quiescent state.
To confirm and test the agreement of the model with experiment, the results from an experiment was used. In this experiment, the system consists of small plastic particles suspended in a viscous liquid that is density and index matched to the particles. The suspensions are placed between concentric cylinders where the inner cylinder is rotated about its axis back and forth through a small angle to produce an oscillatory time-dependent strain. The period of oscillation is kept constant while changing the strain. The plot of experimental results for the characteristic time to reach the quiescent point as a function of strain amplitude is shown in Fig 3. It can be noticed that the behavior is very similar to as predicted by the model.