On Modified Scattering for 1D Quadratic Klein–Gordon Equations With Non-Generic Potentials

Hans Lindblad, Jonas Lührmann, Wilhelm Schlag, Avy Soffer

Type: Article

Publication Date: 2022-01-11

Citations: 19

DOI: https://doi.org/10.1093/imrn/rnac010

Abstract

Abstract We consider the asymptotic behavior of small global-in-time solutions to a 1D Klein–Gordon equation with a spatially localized, variable coefficient quadratic nonlinearity and a non-generic linear potential. The purpose of this work is to continue the investigation of the occurrence of a novel modified scattering behavior of the solutions that involves a logarithmic slow-down of the decay rate along certain rays. This phenomenon is ultimately caused by the threshold resonance of the linear Klein–Gordon operator. It was previously uncovered for the special case of the zero potential in [51]. The Klein–Gordon model considered in this paper is motivated by the asymptotic stability problem for kink solutions arising in classical scalar field theories on the real line.

Locations

International Mathematics Research Notices - View
arXiv (Cornell University) - View - PDF

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+	Spectral properties of Schrödinger operators and time-decay of the wave functions	1979	Arne Jensen Tosio Kato
+	Mathematical aspects of nonlinear dispersive equations	2007	Jean Bourgain Carlos E. Kenig Sergiù Klainerman
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+	The initial value problem for the cubic nonlinear Klein–Gordon equation	2007	Nakao Hayashi Pavel I. Naumkin
+ PDF Chat	Local decay of scattering solutions to Schrödinger's equation	1978	Jeffrey Rauch
+	Asymptotics for large time of solutions to the nonlinear Schrödinger and Hartree equations	1998	Nakao Hayashi Pavel I. Naumkin
+ PDF Chat	A Remark on Asymptotic Completeness for the Critical Nonlinear Klein-Gordon Equation	2005	Hans Lindblad Avy Soffer
+	Non-linear wave and Schrödinger equations	1993	Israel Michael Sigal
+	Spectral properties of Schrödinger operators and time-decay of the wave functions results in L2(Rm), m≥5	1980	Arne Jensen