Abstract
We study the asymptotic time behavior of global smooth solutions to general
entropy, dissipative, hyperbolic systems of balance laws in m space dimensions,
under the Shizuta-Kawashima condition. We show that these solutions approach
a constant equilibrium state in the L p -norm at a rate O(t -(m/2)(1-1/ p) ) as
t -> ? for p ? [min{m, 2}, ?]. Moreover, we can show that we can approxi-
mate, with a faster order of convergence, the conservative part of the solution in
terms of the linearized hyperbolic operator for m >= 2, and by a parabolic equa-
tion, in the spirit of Chapman-Enskog expansion in every space dimension. The
main tool is given by a detailed analysis of the Green function for the linearized
problem.
Anno
2007
Autori IAC
Tipo pubblicazione
Altri Autori
Bianchini S.; Hanouzet B.; Natalini R.
Editore
Wiley Subscription Services
Rivista
Communications on pure and applied mathematics (Print)