Numerical renormalization group of vortex aggregation in two-dimensional decaying turbulence: The role of three-body interactions

We introduce a numerical renormalization group procedure which permits long -time simulations of vortex dynamics and coalescence in a two-dimensional t urbulent decaying quid. The number of vortices decreases as N similar to t( -xi), with xi approximate to 1 instead of the value xi=4/3 predicted by a n aive kinetic theory. For short time, we find an effective exponent xi appro ximate to 0.7 consistent with previous simulations and experiments. We show that the mean square displacement of surviving vortices grows as < x(2)>si milar to t(1+xi/2). Introducing effective dynamics for two- and three-bed!, collisions, we justify that only the latter become relevant at a small vor tex area coverage. A kinetic theory consistent with this mechanism leads to xi=1. We find that the theoretical relations between kinetic parameters ar e all in good agreement with experiments.