An inverse theorem for the Gowers $U^3$-norm relative to quadratic level sets

arXiv - MATH - Number Theory Pub Date : 2024-09-12 DOI:arxiv-2409.07962

Sean Prendiville

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Abstract

We prove an effective version of the inverse theorem for the Gowers $U^3$-norm for functions supported on high-rank quadratic level sets in finite vector spaces. For configurations controlled by the $U^3$-norm (complexity-two configurations), this enables one to run a density increment argument with respect to quadratic level sets, which are analogues of Bohr sets in the context of quadratic Fourier analysis on finite vector spaces. We demonstrate such an argument by deriving an exponential bound on the Ramsey number of three-term progressions which are the same colour as their common difference (``Brauer quadruples''), a result we have been unable to establish by other means. Our methods also yield polylogarithmic bounds on the density of sets lacking translation-invariant configurations of complexity two. Such bounds for four-term progressions were obtained by Green and Tao using a simpler weak-regularity argument. In an appendix, we give an example of how to generalise Green and Tao's argument to other translation-invariant configurations of complexity two. However, this crucially relies on an estimate coming from the Croot-Lev-Pach polynomial method, which may not be applicable to all systems of complexity two. Hence running a density increment with respect to quadratic level sets may still prove useful for such problems. It may also serve as a model for running density increments on more general nil-Bohr sets, with a view to effectivising other Szemer\'edi-type theorems.

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相对于二次水平集的高尔 U^3$ 准则的逆定理

我们证明了有限向量空间中高阶二次水平集上支持的函数的高斯$U^3$规范的有效逆定理版本。对于由 $U^3$ 准则控制的配置（复杂性-两配置），这使我们能够对二次水平集进行密度增量论证，二次水平集是有限向量空间上二次傅里叶分析背景下的玻尔集。我们通过推导与它们的公共差分（"布劳尔四元数"）颜色相同的三项级数的拉姆齐数的指数约束来证明这一论证，我们一直无法通过其他方法建立这一结果。我们的方法还得出了缺乏复杂度为二的翻译不变配置的集合密度的多对数界限。格林和陶哲轩使用更简单的弱规则性论证得到了四项级数的这种边界。在附录中，我们举例说明了如何将格林和陶的论证推广到复杂度为二的其他翻译不变配置。不过，这主要依赖于克罗-列夫-帕赫多项式方法的估计值，而该估计值可能并不适用于所有复杂度为 2 的系统。因此，运行相对于二次水平集的密度增量仍可能被证明对这类问题有用。它还可以作为在更一般的尼尔-波尔集合上运行密度递增的模型，以期有效地实现其他 Szemer\'edi-type 定理。

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arXiv - MATH - Number Theory

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