Kolmogorov turbulence in a random-force-driven Burgers equation: anomalous scaling and probability density functions

Abstract

High-resolution numerical experiments, described in this work, show that velocity fluctuations governed by the one-dimensional Burgers equation driven by a white-in-time random noise with the spectrum |f(k)|2 k-1 exhibit a biscaling behavior: All moments of velocity differences Sn 3(r)=|u(x+r)-u(x)|n| u|n rn/3, while Sn>3 rζn with ζn≈ 1 for real n>0 (Chekhlov and Yakhot, Phys. Rev. E 51, R2739, 1995). The probability density function, which is dominated by coherent shocks in the interval u<0, is P( u,r) ( u)-q with q≈ 4.

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