Physics – Condensed Matter – Other Condensed Matter
Scientific paper
2004-12-17
Physics
Condensed Matter
Other Condensed Matter
6 pages, 2 figures, jltp style. Variant of paper presented for QFS2004
Scientific paper
The Hydrodynamics of Superfluid Turbulence (HST) describes the flows (or counterflows) of HeII in the presence of a chaotic set of vortex filaments. The HST equations govern both a slow variation of the hydrodynamic variables due to dissipation related to the vortex tangle and fast processes of the first and second sound propagation. This circumstance prevents effective numerical simulations of the problems of unsteady heat transfer in HeII. By virtue of a pertinent multi-scale perturbation analysis we show how one can eliminate the fast processes to derive the evolution equation for the slow processes only. We then demonstrate that the long-term evolution of a transient heat load of moderate intensity obeys the nonlinear heat conductivity equation. The second example of the methods developed is investigation of unsteady processes in the second sound resonator. The latter is frequently used for study of nonstationary behavior of vortex tangle, just by monitoring of the quality factor behavior. This procedure however is wrong when characteristic times of processes are comparable (or smaller) than the time constant of resonator. We show how to extract the correct information on the vortex line density (VLD) dynamics with use of procedure we developed. PACS numbers: 47.32.Cc, 47.37.+q, 67.40.Vs., 05.10.Gg.
Krotov S. V.
Nemirovskii Sergey K.
Sorokin A. L.
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