The Batchelor--Howells--Townsend spectrum: three-dimensional case

Abstract

Given a velocity field u(x,t), we consider the evolution of a passive tracer θ governed by ∂tθ + u·∇θ = θ + g with time-independent source g(x). When \|u\| is small in some sense, Batchelor, Howells and Townsend (1959, J.\ Fluid Mech.\ 5:134; henceforth BHT) predicted that the tracer spectrum scales as |θk|2|k|-4|uk|2. Following our recent work for the two-dimensional case, in this paper we prove that the BHT scaling does hold probabilistically, asymptotically for large wavenumbers and for small enough random synthetic three-dimensional incompressible velocity fields u(x,t). We also relaxed some assumptions on the velocity and tracer source, allowing finite variances for both and full power spectrum for the latter.