Counter-flow Induced Decoupling in Super-Fluid Turbulence

Abstract

In mechanically driven superfluid turbulence the mean velocities of the normal- and superfluid components are known to coincide: Un = Us. Numerous laboratory, numerical and analytical studies showed that under these conditions the mutual friction between the normal- and superfluid velocity components couples also their fluctuations: u'n( r,t) ≈ u's( r,t) almost at all scales. In this paper we show that this is not the case in thermally driven superfluid turbulence; here the counterflow velocity Uns Un - Us 0. We suggest a simple analytic model for the cross correlation function u'n( r,t) · u's( r',t) and its dependence on Uns. We demonstrate that u'n( r,t) and u's( r,t) are decoupled almost in the entire range of separations | r- r'| between the energy containing scale and intervortex distance.