preprint

Inserted: 12 nov 2021

Year: 2018

Abstract:

The Moser-Trudinger embedding has been generalized in Adimurthi A.; Sandeep K., A singular Moser-Trudinger embedding and its applications, \textit{NoDEA Nonlinear Differential Equations Appl.}, 13 (2007), no. 5-6, 585--603 to the following weighted version: if $\Omega\subset\mathbb{R}^n$ is bounded, $\omega_{n-1}$ is the $\mathcal{H}^{n-1}$ measure of the unit sphere, then for $\alpha>0$ and $\beta\in [0,n)$, $$ \sup_{{u\in\mathcal{B}1}\int{\Omega}\frac{e}^{\alpha
u
^{n(n-1)}}}{
x
^{\beta}}\leq C \ \Leftrightarrow \ \frac{\alpha}{\alpha_{n}+\frac{\beta}{n}\leq1,\qquad} $$ where $\alpha_n=n\cnn$ and $\mathcal{B}_1 = \left\{ u \in W_0^{1, n}(\Omega) \
\ \int_{\Omega}
\nabla u
^n \leq1 \right\}$. We prove that the supremum is attained on any domain $\Omega$. The paper also fills in the gaps in the proof of Lin K.C., Extremal functions for Moser's inequality, \textit{Trans. of. Am. Math. Soc.}, 384 (1996), 2663--2671, which deals with the case $\beta=0.$