On sum-product representations in $\Bbb Z_q$

• Autores: Mei-Chu Chang
• Localización: Journal of the European Mathematical Society, ISSN 1435-9855, Vol. 8, Nº 3, 2006, págs. 435-463
• Idioma: inglés
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• Resumen

  • The purpose of this paper is to investigate efficient representations of the residue classes modulo $q$, by performing sum and product set operations starting from a given subset $A$ of $\mathbb Z_q$. We consider the case of very small sets $A$ and composite $q$ for which not much seemed known (nontrivial results were recently obtained when $q$ is prime or when $\log |A| \sim \log q$). Roughly speaking we show that all residue classes are obtained from a $k$-fold sum of an $r$-fold product set of $A$, where $r\ll \log q$ and $\log k \ll \log q$, provided the residue sets $\pi_{q'} (A)$ are large for all large divisors $q'$ of $q$. Even in the special case of prime modulus $q$, some results are new, when considering large but bounded sets $A$. It follows for instance from our estimates that one can obtain $r$ as small as $r\sim\xfrac {\log q}{\log|A|}$ with similar restriction on $k$, something not covered by earlier work of Konyagin and Shparlinski. On the technical side, essential use is made of Freiman's structural theorem on sets with small doubling constant. Taking for $A=H$ a possibly very small multiplicative subgroup, bounds on exponential sums and lower bounds on $\min_{a \in \mathbb Z_q^*} \max_{x \in H} \Vert\xfrac {ax}q\Vert $ are obtained. This is an extension to the results obtained by Konyagin, Shparlinski and Robinson on the distribution of solutions of $x^m = a $ (mod $q)$ to composite modulus $q$.