A Spectral Representation of a Weighted Random Vectorial Field: Potential Applications to Turbulence and the Problem of Anomalous Dissipation in the Inviscid Limit

Abstract

Let G⊂R3 with vol(G) L3. Let T(x) be a Gaussian random field ∀~x∈G with expectation E[T(x)]=0 and correlation E[T(x)T(y)]=K(x,y;λ), an isotropic and regulated kernel with correlation length λ. The field has a Karhunen-Loeve spectral representation T(x)=ΣI=1∞Z1/2IfI(x)ZI, with eigenvalues I, eigenfunctions fI(x) and Gaussian random variables ZI with E[ZI]=0 and E[ZIZJ]=δIJ. If G contains incompressible fluid of viscosity with velocity ua(x,t) that evolves via the Navier-Stokes equations with a high 'Reynolds function' RE(x,t)=\|ua(x,t)\|L then aspects of a turbulent flow with RE(x,t) RE*, a critical Reynolds number, might be represented by the 'weighted' random field Ua(x,t)= ua(x,t)+Aua(x,t)(RE(x,t)-RE*)βΣI=1∞ Z1/2IfI(x)ZI where random fluctuations and amplitude scale nonlinearly with RE(x,t), with mean E[Ua(x,t)] =ua(x,t). In the inviscid limit one can prove an anomalous dissipation-type law align → 0(ua(x,t)→ ua~ ∫G∫0TE[|∇aUa(x,s)|2]dV(x) ds)>0 align iff β=12 and ΣI=1∞ZI∫G∇afI(x)∇afI(x)dV(x)>0.