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Note on the pinned distance problem over finite fields

Let F_q be a finite field with odd q elements. In this article, we prove that if E \subseteq \mathbb F_q^d, d\ge 2, and |E|\ge q, then there exists a set Y \subseteq \mathbb F_q^d with |Y|\sim q^d$ such that for all y\in Y, the number of distances between the point y and the set E is similar to the size of the finite field \mathbb F_q. As a corollary, we obtain that for each set E\subseteq \mathbb F_q^d with |E|\ge q, there exists a set Y\subseteq \mathbb F_q^d with |Y|\sim q^d so that any set E\cup \{y\} with y\in Y determines a positive proportion of all possible distances. An averaging argument and the pigeonhole principle play a crucial role in proving our results.

preprint2022arXivOpen access
Doowon Koh
math.NT
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Doowon Koh

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