Abstract
We construct a finite-time blow-up solution for a class of strongly perturbed semilinear wave equation with an isolated characteristic point in one space dimension. Given any integer k≥2 and ζ0∈R, we construct a blow-up solution with a characteristic point a, such that the asymptotic behavior of the solution near (a,T(a)) shows a decoupled sum of k solitons with alternate signs, whose centers (in the hyperbolic geometry) have ζ0 as a center of mass, for all times. Although the result is similar to the unperturbed case in its statement, our method is new. Indeed, our perturbed equation is not invariant under the Lorentz transform, and this requires new ideas. In fact, the main difficulty in this paper is to prescribe the center of mass ζ0∈R. We would like to mention that our method is valid also in the unperturbed case, and simplifies the original proof by Côte and Zaag [9], as far as the center of mass prescription is concerned.
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