A sharp Trudinger-Moser inequality on any bounded and convex planar domain

Abstract

Wang and Ye conjectured in [22]: Let be a regular, bounded and convex domain in R2. There exists a finite constant C()>0 such that \[ ∫e4π u2Hd(u)dxdy C(),\;\;∀ u∈ C∞0(), \] where Hd=∫|∇ u|2dxdy-14∫u2d(z,∂)2dxdy and d(z,∂)=z1∈∂|z-z1|. The main purpose of this paper is to confirm that this conjecture indeed holds for any bounded and convex domain in R2 via the Riemann mapping theorem (the smoothness of the boundary of the domain is thus irrelevant). We also give a rearrangement-free argument for the following Trudinger-Moser inequality on the hyperbolic space B=\z=x+iy:|z|=x2+y2<1\: \[ \|u\|H≤ 1 ∫B(e4π u2-1-4π u2)dV=\|u\|H≤ 1∫B(e4π u2-1-4π u2)(1-|z|2)2dxdy< ∞, \] by using the method employed earlier by Lam and the first author [9, 10], where H denotes the closure of C∞0(B) with respect to the norm \|u\|H=∫B|∇ u|2dxdy-∫Bu2(1-|z|2)2dxdy. Using this strengthened Trudinger-Moser inequality, we also give a simpler proof of the Hardy-Moser-Trudinger inequality obtained by Wang and Ye [22].