Scalar behavior for a complex multi-soliton arising in blow-up for a semilinear wave equation

Asma Azaiez; Jacek Jendrej; Hatem Zaag

doi:10.1112/plms.70128

Scalar behavior for a complex multi-soliton arising in blow-up for a semilinear wave equation

Asma Azaiez
, Jacek Jendrej
, Hatem Zaag

École Polytechnique

Sfax University
Agh University of Science and Technology Faculty of Computer Science
Université Sorbonne Paris-Nord

Research output: Contribution to journal › Article › peer-review

Abstract

This paper deals with blow-up for the complex-valued semilinear wave equation with power nonlinearity in dimension 1. Up to a rotation of the solution in the complex plane, we show that near a characteristic blow-up point, the solution behaves exactly as in the real-valued case. Namely, up to a rotation in the complex plane, the solution decomposes into a sum of a finite number of decoupled solitons with alternate signs. The main novelty of our proof is a resolution of a complex-valued first-order Toda system governing the evolution of the positions and the phases of the solitons.

Original language	English
Article number	e70128
Journal	Proceedings of the London Mathematical Society
Volume	132
Issue number	2
DOIs	https://doi.org/10.1112/plms.70128
Publication status	Published - 1 Feb 2026

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abstract = "This paper deals with blow-up for the complex-valued semilinear wave equation with power nonlinearity in dimension 1. Up to a rotation of the solution in the complex plane, we show that near a characteristic blow-up point, the solution behaves exactly as in the real-valued case. Namely, up to a rotation in the complex plane, the solution decomposes into a sum of a finite number of decoupled solitons with alternate signs. The main novelty of our proof is a resolution of a complex-valued first-order Toda system governing the evolution of the positions and the phases of the solitons.",

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Scalar behavior for a complex multi-soliton arising in blow-up for a semilinear wave equation

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