Abstract
Results of numerical simulations of a recently derived most general dissipative-dispersive partial differential equation describing evolution of a film flowing down an inclined plane are presented. They indicate that a novel complex type of spatiotemporal patterns can exist for strange attractors of nonequilibrium systems. It is suggested that real-life experiments satisfying the validity conditions of the theory are possible: the required sufficiently viscous liquids are readily available.
DOI:https://doi.org/10.1103/PhysRevE.55.1174
©1997 American Physical Society