Effective Bounds for Restricted 3-Arithmetic Progressions in Fpn

Electron. Colloquium Comput. Complex. Pub Date : 2023-08-12 DOI:10.48550/arXiv.2308.06600
Amey Bhangale, Subhash Khot, Dor Minzer
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引用次数: 0

Abstract

For a prime $p$, a restricted arithmetic progression in $\mathbb{F}_p^n$ 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 $A\subseteq \mathbb{F}_p^n$ that is free of restricted arithmetic progressions? We show that the density of any such set is at most $\frac{C}{(\log\log\log n)^c}$, 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 $O(1/\log^{*} n)$, which follows from the density Hales-Jewett theorem.
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Fpn中受限3等差数列的有效界
对于质数$p$, $\mathbb{F}_p^n$中的限制等差数列是一个向量的三元组$x, x+a, x+2a$,其中的公差$a$是$\{0,1,2\}^n$中的一个非零元素。没有限制等差数列的最大的$A\subseteq \mathbb{F}_p^n$的大小是多少?我们证明了任何这样的集合的密度不超过$\frac{C}{(\log\log\log n)^c}$,其中$c,C>0$只依赖于$p$,给出了这样的集合的密度的第一个合理界限。在此之前,最著名的界是$O(1/\log^{*} n)$,它由密度Hales-Jewett定理推导而来。
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Electron. Colloquium Comput. Complex.
Electron. Colloquium Comput. Complex.
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