A \((\phi_\frac{n}{s}, \phi)\)-Poincaré inequality on John domains

Pub Date : 2024-09-03 DOI:10.1007/s10476-024-00038-5
S. Feng, T. Liang
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Abstract

Let \(\Omega\) be a bounded domain in \(\mathbb{R}^n\) with \(n\ge2\) and \(s\in(0,1)\). Assume that \(\phi \colon [0, \infty) \to [0, \infty)\) is a Young function obeying the doubling condition with the constant \(K_\phi< 2^{\frac{n}{s}}\). We demonstrate that \(\Omega\) supports a \((\phi_\frac{n}{s}, \phi)\)-Poincaré inequality if it is a John domain. Alternatively, assume further that \(\Omega\) is a bounded domain that is quasiconformally equivalent to a uniform domain (for \(n\geq3\)) or a simply connected domain (for \(n=2\)), then we show that \(\Omega\) is a John domain if a \((\phi_\frac{n}{s}, \phi)\)-Poincaré inequality holds.

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约翰域上的 $$(\phi_\frac{n}{s}, \phi)$$ -Poincaré 不等式
让(\Omega\)是(\mathbb{R}^n\)中的一个有界域,具有(n\ge2\)和(s\in(0,1)\)。假设 \(\phi \colon [0, \infty) \to [0, \infty)\) 是一个遵守翻倍条件的Young函数,常数为 \(K_\phi<2^{/frac{n}{s}}/)。我们证明,如果 \(\Omega\) 是一个约翰域,那么它支持一个 \((\phi_\frac{n}{s}, \phi)\)-Poincaré不等式。或者,进一步假设 \(Omega)是一个有界域,它等价于一个均匀域(对于 \(n\geq3\))或一个简单连接域(对于 \(n=2\)),那么我们证明如果一个 \((\phi_\frac{n}{s}, \phi)\)-Poincaré不等式成立,那么 \(Omega)就是一个约翰域。
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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