Abstract: The Cauchy problem for linear constant--coefficient hyperbolic systems $u_t+ \sum_{j} \Aj u_\xj = (1/\delta)Bu+Cu$ in $d$ space dimensions is analyzed. Here $(1/\delta)Bu$ is a large relaxation term, and we are mostly interested in the critical case where $B$ has a non--trivial null--space. A concept of stiff well--posedness is introduced that ensures solution estimates independent of $0< \delta \ll 1$. Under suitable assumptions, an asymptotic expansion for small $\delta$ is presented. Furthermore, we give sharp conditions for the existence of a limit of the $L_2$--solution as $\delta$ tends to zero. The evolution of this limit is governed by a reduced hyperbolic system, the so--called equilibrium system. The original system and the equilibrium system are related by a phase speed condition.The theory is applied to a linearized version of a generic model of two--phase flow in a porous medium. Stiff well--posedness of this system is analyzed in detail, and the leading terms of the expansion are computed numerically.
mailto:conservation@math.ntnu.no Last modified: Tue Nov 18 11:16:40 1997