The Emergence of Small Scales in Vortex Ring Collisions

When two vortex rings collide head-on, the initially smooth flow structures rapidly become unstable as they develop complex three-dimensional dynamics that result in the vortex cores either reconnecting or breaking down into a turbulent cloud. We use high-speed flow visualization techniques with a scanning laser sheet to reconstruct the intricate, three-dimensional dynamics of the interacting vortex cores. We show that the breakdown of the vortex cores is caused by the local flattening of the cores into vortex sheets, which break down into smaller vortex filaments. These secondary filaments break down again in an iterative manner to produce fine-scale turbulent “smoke.” This iterative cascade could be indicative of a possible mechanism by which kinetic energy is conveyed to small scales in turbulent flow.