Restricted weak type inequalities for the one-sided Hardy-Littlewood maximal operators in higher dimensions (2105.09757v2)

Abstract: We give a quantitative characterization of the pairs of weights $(w,v)$ for which the dyadic version of the one-sided Hardy-Littlewood maximal operator satisfies a restricted weak $(p,p)$ type inequality, for $1\leq p<\infty$. More precisely, given any measurable set $E_0$ the estimate [w({x\in \mathbb{R}^n: M^{+,d}(\mathcal{X}_{E_0})(x)>t})\leq \frac{C[(w,v)]{A_p^{+,d}(\mathcal{R})}^p}{t^p}v(E_0)] holds if and only if the pair $(w,v)$ belongs to $A_p^{+,d}(\mathcal{R})$, that is [\frac{|E|}{|Q|}\leq [(w,v)]{A_p^{+,d}(\mathcal{R})}\left(\frac{v(E)}{w(Q)}\right)^{1/p}] for every dyadic cube $Q$ and every measurable set $E\subset Q^+$. The proof follows some ideas appearing in [Sheldy Ombrosi, \emph{Weak weighted inequalities for a dyadic one-sided maximal function in {$\Bbb R^n$}}, Proc. Amer. Math. Soc. \textbf{133} (2005), no.~6, 1769--1775]. We also obtain a similar quantitative characterization for the non-dydadic case in $\mathbb{R}^2$ by following the main ideas in [L.~Forzani, F.~J. Mart\'{\i}n-Reyes, and S.~Ombrosi, \emph{Weighted inequalities for the two-dimensional one-sided {H}ardy-{L}ittlewood maximal function}, Trans. Amer. Math. Soc. \textbf{363} (2011), no.~4, 1699--1719].