Effective Bounds for Restricted 3-Arithmetic Progressions in Fpn
Abstract
For a prime p, a restricted arithmetic progression in Fpn is a triplet of vectors x, x+a, x+2a in which the common difference a is a non-zero element from \0,1,2\n. What is the size of the largest A⊂eq Fpn that is free of restricted arithmetic progressions? We show that the density of any such a set is at most C( n)c, where c,C>0 depend only on p, giving the first reasonable bounds for the density of such sets. Previously, the best known bound was O(1/* n), which follows from the density Hales-Jewett theorem.
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