Asymptotically sharp embedding of A∞ into Ap for flat weights and applications to Poincar\'e-Sobolev inequalities

Abstract

We provide new quantitative results on the embedding of the Muckenhoupt class A∞ into Ap with the correct asymptotic behavior when the Fujii--Wilson constant [w]A∞ is close to 1, namely that the parameter p goes to 1 when the weight is nearly constant. As intermediate steps towards the result, we obtain quantitative estimates on the weighted and unweighted BMO norms of w for an A∞ weight w. As a consequence, we show that a precise quantitative weighted Poincar\'e-Sobolev inequality can be proved for weights with small [w]A∞ that recovers the classical Sobolev exponent p*=npn-p when [w]A∞ 1+.