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Title: Concentration-Compactness Principle for embedding into multiple exponential spaces on unbounded domains (English)
Author: Černý, Robert
Language: English
Journal: Czechoslovak Mathematical Journal
ISSN: 0011-4642 (print)
ISSN: 1572-9141 (online)
Volume: 65
Issue: 2
Year: 2015
Pages: 493-516
Summary lang: English
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Category: math
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Summary: Let $\Omega \subset \mathbb R^n$ be a domain and let $\alpha <n-1$. We prove the Concentration-Compactness Principle for the embedding of the space $W_0^1L^n\log ^{\alpha }L(\Omega )$ into an Orlicz space corresponding to a Young function which behaves like $\exp (t^{{n}/{(n-1-\alpha )}})$ for large $t$. We also give the result for the embedding into multiple exponential spaces. \endgraf Our main result is Theorem \ref {lions4} where we show that if one passes to unbounded domains, then, after the usual modification of the integrand in the Moser functional, the statement of the Concentration-Compactnes Principle is very similar to the statement in the case of a bounded domain. In particular, in the case of a nontrivial weak limit the borderline exponent is still given by the formula $$ P:=(1-\|\Phi (|\nabla u|)\|_{L^1(\mathbb R^n)})^{-{1}/{(n-1)}}. $$ (English)
Keyword: Sobolev space
Keyword: Orlicz-Sobolev space
Keyword: Moser-Trudinger inequality
Keyword: sharp constant
Keyword: concentration-compactness principle
MSC: 26D10
MSC: 46E30
MSC: 46E35
idZBL: Zbl 06486960
idMR: MR3360440
DOI: 10.1007/s10587-015-0189-y
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Date available: 2015-06-16T18:01:32Z
Last updated: 2020-07-03
Stable URL: http://hdl.handle.net/10338.dmlcz/144283
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