Quadratic Klein-Gordon equations with a potential in one dimension

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
P. Germain, F. Pusateri
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引用次数: 29

Abstract

Abstract This paper proposes a fairly general new point of view on the question of asymptotic stability of (topological) solitons. Our approach is based on the use of the distorted Fourier transform at the nonlinear level; it does not rely only on Strichartz or virial estimates and is therefore able to treat low-power nonlinearities (hence also nonlocalised solitons) and capture the global (in space and time) behaviour of solutions. More specifically, we consider quadratic nonlinear Klein-Gordon equations with a regular and decaying potential in one space dimension. Additional assumptions are made so that the distorted Fourier transform of the solution vanishes at zero frequency. Assuming also that the associated Schrödinger operator has no negative eigenvalues, we obtain global-in-time bounds, including sharp pointwise decay and modified asymptotics, for small solutions. These results have some direct applications to the asymptotic stability of (topological) solitons, as well as several other potential applications to a variety of related problems. For instance, we obtain full asymptotic stability of kinks with respect to odd perturbations for the double sine-Gordon problem (in an appropriate range of the deformation parameter). For the $\phi ^4$ problem, we obtain asymptotic stability for small odd solutions, provided the nonlinearity is projected on the continuous spectrum. Our results also go beyond these examples since our framework allows for the presence of a fully coherent phenomenon (a space-time resonance) at the level of quadratic interactions, which creates a degeneracy in distorted Fourier space. We devise a suitable framework that incorporates this and use multilinear harmonic analysis in the distorted setting to control all nonlinear interactions.
一维势的二次Klein-Gordon方程
摘要本文对(拓扑)孤子的渐近稳定性问题提出了一个比较一般的新观点。我们的方法是基于在非线性水平上使用扭曲的傅立叶变换;它不仅依赖于Strichartz或viri估计,因此能够处理低功率非线性(因此也是非局部孤子)并捕获解的全局(在空间和时间上)行为。更具体地说,我们考虑一维空间中具有规则和衰减势的二次非线性Klein-Gordon方程。附加的假设使得解的扭曲傅立叶变换在零频率处消失。同时假设相关的Schrödinger算子没有负特征值,我们得到了小解的全局时界,包括尖锐的点向衰减和修正渐近性。这些结果有一些直接应用于(拓扑)孤子的渐近稳定性,以及其他一些潜在的应用于各种相关问题。例如,对于双正弦戈登问题(在适当的变形参数范围内),我们得到了关于奇摄动的扭结的完全渐近稳定性。对于$\phi ^4$问题,我们得到了小奇解的渐近稳定性,只要非线性被投影到连续谱上。我们的结果也超越了这些例子,因为我们的框架允许在二次相互作用水平上存在完全相干的现象(时空共振),这会在扭曲的傅立叶空间中产生退化。我们设计了一个合适的框架,结合了这一点,并在扭曲设置中使用多线性谐波分析来控制所有非线性相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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