Kevin Hughes
Published 2016-09-14Version 1
We initiate the study of the $\ell^p(\mathbb{Z}^d)$-boundedness of the arithmetic spherical maximal function over sparse sequences. We state a folklore conjecture for lacunary sequences, a key example of Zienkiewicz and prove new bounds for a family of sparse sequences that achieves the endpoint of the Magyar--Stein--Wainger theorem for the full discrete spherical maximal function. Perhaps our most interesting result is the boundedness of a discrete spherical maximal function in $\mathbb{Z}^4$ over an infinite, albeit sparse, set of radii. Our methods include the Kloosterman refinement for the Fourier transform of the spherical measure (introduced by Magyar) and Weil bounds for Kloosterman sums which are utilized by a new further decomposition of spherical measure.
Comments: 14 pages. Accepted to Journal d'Analyse Mathematique
A note on discrete spherical averages over sparse sequences
Quantitative $l^p$ improving for discrete spherical averages along the primes
$\ell^p$-improving for discrete spherical averages
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