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Maximal Function Inequalities and a Theorem of Birch

arXiv:1711.04298

Abstract

In this paper we prove an analogue of the discrete spherical maximal theorem of Magyar, Stein, and Wainger, an analogue which concerns maximal functions associated to homogenous algebraic surfaces. Let $\mathfrak{p}$ be a homogenous polynomial in $n$ variables with integer coefficients of degree $d>1$. The maximal functions we consider are defined by \[ A_*f(y)=\sup_{N\geq1}\left|\frac{1}{r(N)}\sum_{\mathfrak{p}(x)=0;\,x\in[N]^n}f(y-x)\right|\] for functions $f:\mathbb{Z}^n\to\mathbb{C}$, where $[N]=\{-N,-N+1,...,N\}$ and $r(N)$ represents the number of integral points on the surface defined by $\mathfrak{p}(x)=0$ inside the $n$-cube $[N]^n.$ It is shown here that the operators $A_*$ are bounded on $\ell^p$ in the optimal range $p>1$ under certain regularity assumptions on the polynomial $\mathfrak{p}$.