Blow up for some semilinear wave equations in multi-space dimensions

Abstract

In this paper, we discuss a new nonlinear phenomenon. We find that in n≥ 2 space dimensions, there exists two indexes p and q such that the cauchy problems for the nonlinear wave equations equation 0.1 u(t,x) = |u(t,x)|q, \ \ x∈ Rn, equation and equation 0.2 u(t,x) = |ut(t,x)|p, \ \ x∈ Rn equation both have global existence for small initial data, while for the combined nonlinearity, the solutions to the Cauchy problem for the nonlinear wave equation equation 0.3 u(t,x) = | ut(t,x)|p + |u(t,x)|q, \ \ x∈ Rn, equation with small initial data will blow up in finite time. In the two dimensional case, we also find that if q=4, the Cauchy problem for the equation 0.1 has global existence, and the Cauchy problem for the equation equation 0.4 u(t,x) = u (t,x)ut(t,x)2, \ \ x∈ R2 equation has almost global existence, that is, the life span is at least (c-2) for initial data of size . However, in the combined nonlinearity case, the Cauchy problem for the equation equation 0.5 u(t,x) = u(t,x) ut(t,x)2 + u(t,x)4, \ \ x∈ R2 equation has a life span which is of the order of -18 for the initial data of size , this is considerably shorter in magnitude than that of the first two equations. This solves an open optimality problem for general theory of fully nonlinear wave equations (see Katayama).