Improved bounds for arithmetic progressions in product sets
Abstract
Let B be a set of natural numbers of size n. We prove that the length of the longest arithmetic progression contained in the product set B.B = \bb'| \, b, b' ∈ B\ cannot be greater than O(n n) which matches the lower bound provided in an earlier paper up to a multiplicative constant. For sets of complex numbers we improve the bound to Oε(n1 + ε) for arbitrary ε > 0 assuming the GRH.
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