Blowup solutions for a reaction-diffusion system with exponential nonlinearities

Abstract

We consider the following parabolic system whose nonlinearity has no gradient structure: \arrayll ∂t u = u + epv, & ∂t v = μ v + equ, u(·, 0) = u0, & v(·, 0) = v0, array. p, q, μ > 0, in the whole space RN. We show the existence of a stable blowup solution and obtain a complete description of its singularity formation. The construction relies on the reduction of the problem to a finite dimensional one and a topological argument based on the index theory to conclude. In particular, our analysis uses neither the maximum principle nor the classical methods based on energy-type estimates which are not supported in this system. The stability is a consequence of the existence proof through a geometrical interpretation of the quantities of blowup parameters whose dimension is equal to the dimension of the finite dimensional problem.