分层李群上半线性热方程的考奇问题的存在性和唯一性结果

IF 2.4 2区数学 Q1 MATHEMATICS

Journal of Differential Equations Pub Date : 2024-08-19 DOI:10.1016/j.jde.2024.08.027

Hiroyuki Hirayama , Yasuyuki Oka

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引用次数: 0

摘要

我们认为非线性函数的行为类似于 |u|α 或 |u|α-1u (α>1)，初始数据 u0 属于 1<p<∞ 和 0<s<N/p 的索波列夫空间 Lsp(G)。由于分层李群 G 包括欧几里得空间 Rn，我们的结果是 F. Ribaud 在 Rn 上得到的存在性和唯一性结果在 G 上的扩展。我们在 G 上采用广义分数链法则来获得非线性项的估计值，这与 Ribaud 在 Rn 上采用的准分解技术截然不同。通过使用 G 上的广义分数链规则，我们可以避免讨论 G 上的傅里叶分析，并使证明更加简单。

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Results of existence and uniqueness for the Cauchy problem of semilinear heat equations on stratified Lie groups

The aim of this paper is to give existence and uniqueness results for solutions of the Cauchy problem for semilinear heat equations on stratified Lie groups $G$ with the homogeneous dimension N. We consider the nonlinear function behaves like $| u |^{α}$ or $| u |^{α - 1} u$ $(α > 1)$ and the initial data $u_{0}$ belongs to the Sobolev spaces $L_{s}^{p} (G)$ for $1 < p < \infty$ and $0 < s < N / p$ . Since stratified Lie groups $G$ include the Euclidean space $R^{n}$ as an example, our results are an extension of the existence and uniqueness results obtained by F. Ribaud on $R^{n}$ to $G$ . It should be noted that our proof is very different from it given by Ribaud on $R^{n}$ . We adopt the generalized fractional chain rule on $G$ to obtain the estimate for the nonlinear term, which is very different from the paracomposition technique adopted by Ribaud on $R^{n}$ . By using the generalized fractional chain rule on $G$ , we can avoid the discussion of Fourier analysis on $G$ and make the proof more simple.

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来源期刊

Journal of Differential Equations 数学-数学

CiteScore

4.40

自引率

8.30%

发文量

543

审稿时长

9 months

期刊介绍： The Journal of Differential Equations is concerned with the theory and the application of differential equations. The articles published are addressed not only to mathematicians but also to those engineers, physicists, and other scientists for whom differential equations are valuable research tools. Research Areas Include: • Mathematical control theory • Ordinary differential equations • Partial differential equations • Stochastic differential equations • Topological dynamics • Related topics