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paper

New examples of complete sets, with connections to a Diophantine theorem of Furstenberg

arXiv:1507.02208

Abstract

A set $A\subseteq\mathbb N$ is called $complete$ if every sufficiently large integer can be written as the sum of distinct elements of $A$. In this paper we present a new method for proving the completeness of a set, improving results of Cassels ('60), Zannier ('92), Burr, Erdős, Graham, and Li ('96), and Hegyvári ('00). We also introduce the somewhat philosophically related notion of a $dispersing$ set and refine a theorem of Furstenberg ('67).