Sparse Bounds for Random Discrete Carleson Theorems
arXiv:1609.08701
Abstract
We study discrete random variants of the Carleson maximal operator. Intriguingly, these questions remain subtle and difficult, even in this setting. Let $\{X_m\}$ be an independent sequence of $\{0,1\}$ random variables with expectations \[ \mathbb E X_m = Ï_m = m^{-α}, \ 0 < α< 1/2, \] and $ S_m = \sum_{k=1} ^{m} X_k$. Then the maximal operator below almost surely is bounded from $ \ell ^{p}$ to $ \ell ^{p}$, provided the Minkowski dimension of $ Î\subset [-1/2, 1/2]$ is strictly less than $ 1- α$. \[ \sup_{λ\in Î} \Bigl| \sum_{m\neq 0} X_{\lvert m\rvert } \frac{e( λm )}{ {\rm sgn} (m)S_{ |m| }} f(x- m) \Bigr|. \] This operator also satisfies a sparse type bound. The form of the sparse bound immediately implies weighted estimates in all $ \ell ^{2}$, which are novel in this setting. Variants and extensions are also considered.