Scanning Superfluid-Turbulence Cascade by Its Low-Temperature Cutoff

Abstract

On the basis of recently proposed scenario of the transformation of the Kolmogorov cascade into the Kelvin-wave cascade, we develop a theory of low-temperature cutoff. The theory predicts a specific behavior of the quantized vortex line density, L, controlled by the frictional coefficient, α(T) 1, responsible for the cutoff. The curve L( α) is found to directly reflect the structure of the cascade, revealing four qualitatively distinct wavenumber regions. Excellent agreement with recent experiment by Walmsley et al. [arXiv:0710.1033]--in which L(T) has been measured down to T 0.08 K--implies that the scenario of low-temperature superfluid turbulence is now experimentally validated, and allows to quantify the Kelvin-wave cascade spectrum.