Turbulence and Multiscaling in the Randomly Forced Navier Stokes Equation
Abstract
We present an extensive pseudospectral study of the randomly forced Navier-Stokes equation (RFNSE) stirred by a stochastic force with zero mean and a variance k4-d-y, where k is the wavevector and the dimension d = 3. We present the first evidence for multiscaling of velocity structure functions in this model for y ≥ 4. We extract the multiscaling exponent ratios ζp/ζ2 by using extended self similarity (ESS), examine their dependence on y, and show that, if y = 4, they are in agreement with those obtained for the deterministically forced Navier-Stokes equation (3dNSE). We also show that well-defined vortex filaments, which appear clearly in studies of the 3dNSE, are absent in the RFNSE.
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