Extended Self-Similarity in Turbulent Systems: an Analytically Soluble Example

Abstract

In turbulent flows the n'th order structure functions Sn(R) scale like Rζn when R is in the "inertial range". Extended Self-Similarity refers to the substantial increase in the range of power law behaviour of Sn(R) when they are plotted as a function of S2(R) or S3(R). In this Letter we demonstrate this phenomenon analytically in the context of the ``multiscaling" turbulent advection of a passive scalar. This model gives rise to a series of differential equations for the structure functions Sn(R) which can be solved and shown to exhibit extended self similarity. The phenomenon is understood by comparing the equations for Sn(R) to those for Sn(S2).

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