Punctuated vortex coalescence and discrete scale invariance in two-dimensional turbulence

We present experimental evidence and theoretical arguments showing that the time-evolution of Freely decaying two-dimensional (2D) turbulence is gover ned by a discrete time scale invariance rather than a continuous time scale invariance. Physically, this reflects that the time-evolution of the mergi ng of vortices is not smooth but punctuated, leading to a preferred scale f actor and, as a consequence, to log-periodic oscillations. From a thorough analysis of freely decaying 2D turbulence experiments, we show that the num ber of vortices, their radius and separation display log-periodic oscillati ons as a function of time with an average fog-frequency of approximate to 4 -5 corresponding to a preferred scaling ratio of approximate to 1.2-1.3. (C ) 2000 Elsevier Science B.V. All rights reserved.