Morrey spaces and classification of global solutions for a supercritical semilinear heat equation in

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• 作者：Philippe Souplet ^{souplet@math.univ-paris13.fr}
• 关键词：Supercritical semilinear heat equation ; Boundedness of global solutions ; Morrey spaces ; Weighted energy
• 刊名：Journal of Functional Analysis
• 出版年：2017
• 出版时间：1 March 2017
• 年：2017
• 卷：272
• 期：5
• 页码：2005-2037
• 全文大小：605 K
• 卷排序：272

文摘

We prove the boundedness of global classical solutions for the semilinear heat equation ut−Δu=|u|p−1uut−Δu=|u|p−1u in the whole space RnRn, with n≥3n≥3 and supercritical power p>(n+2)/(n−2)p>(n+2)/(n−2). This is proved without any radial symmetry or sign assumptions  , unlike in all the previously known results for the Cauchy problem, and under spatial decay assumptions on the initial data that are essentially optimal in view of the known counter-examples. Moreover, we show that any global classical solution has to decay in time faster than t−1/(p−1)t−1/(p−1), which is also optimal and in contrast with the subcritical case.The proof relies on nontrivial modifications of techniques developed by Chou, Du and Zheng [8] and by Blatt and Struwe  and  for the case of convex bounded domains. They are based on weighted energy estimates of Giga–Kohn type, combined with an analysis of the equation in a suitable Morrey space. This method actually works for any convex, bounded or unbounded, smooth domain, but at the same time captures some of the specific behaviors associated with the case of the whole space RnRn.As a consequence we also prove that the set of initial data producing global solutions is open in suitable topologies, and we show that the so-called “borderline” global weak solutions blow up in finite time and then become classical again and decay as t→∞t→∞. All these results confirm the key role played by the Morrey space M2,4/(p−1)M2,4/(p−1) in the understanding of the structure of the set of global solutions for p>pSp>pS.