6533b7dcfe1ef96bd1272954
RESEARCH PRODUCT
Fast relaxation phenomena and slow mode in extended thermodynamics of superfluids
Maria Stella MongiovìR.a. Peruzzasubject
Wave propagationCauchy stress tensorTime evolutionNon-equilibrium thermodynamicsThermodynamicsComputer Science ApplicationsSuperfluidityClassical mechanicsModeling and SimulationDispersion relationModelling and SimulationDissipative systemVector fieldMathematicsdescription
A macroscopic monofluid model of liquid helium II which is based on extended thermodynamics was formulated in previous works, both in the presence and in the absence of dissipative phenomena. In all these studies, the time evolution of the nonequilibrium stress tensor was neglected, putting the relaxation times @t"0 and @t"2 of the nonequilibrium pressure and of the stress deviator equal to zero. In this work, the time evolution of these fields is not neglected and the complete model with 14 fields is studied, in the linear approximation. The propagation of waves is studied and a dispersion relation of degree 14 is obtained. The solutions of this equation are carried out, perturbing the solutions obtained in the limiting case @t"0 = 0 = @t"2. The corresponding modes are also investigated. Two vector fields, having the dimension of velocity, arise in the theory and they are interpreted as the velocities of the normal and the superfluid component in helium II, allowing the connection between this macroscopic model and the microscopic one.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2003-08-01 | Mathematical and Computer Modelling |