Gowers norm

In mathematics, in the field of additive combinatorics, a Gowers norm or uniformity norm is a class of norm on functions on a finite group or group-like object which are used in the study of arithmetic progressions in the group. It is named after Timothy Gowers, who introduced it in his work on Szemerédi's theorem.^[1]

Definition

Let f be a complex-valued function on a finite Abelian group G and let J denote complex conjugation. The Gowers d-norm is

\Vert f \Vert_{U^d(G)}^{2^d} = \mathbf{E}_{x,h_1,\ldots,h_d \in G} \prod_{\omega_1,\ldots,\omega_d \in \{0,1\}} J^{\omega_1+\cdots+\omega_d} f\left({x + h_1\omega_1 + \cdots + h_d\omega_d}\right) \ .

Gowers norms are also defined for complex valued functions f on a segment [N]={0,1,2,...,N-1}, where N is a positive integer. In this context, the uniformity norm is given as $\Vert f \Vert_{U^d[N]} = \Vert \tilde{f} \Vert_{U^d(\mathbb{Z}/\tilde{N}\mathbb{Z})}/\Vert 1_{[N]} \Vert_{U^d(\mathbb{Z}/\tilde{N}\mathbb{Z})}$ , where $\tilde N$ is a large integer, $1_{[N]}$ denotes the indicator function of [N], and $\tilde f(x)$ is equal to $f(x)$ for $x \in [N]$ and $0$ for all other $x$ . This definition does not depend on $\tilde N$ , as long as $\tilde N > 2^d N$ .

Inverse conjectures

An inverse conjecture for these norms is a statement asserting that if a bounded function f has a large Gowers d-norm then f correlates with a polynomial phase of degree d-1 or other object with polynomial behaviour (e.g. a (d-1)-step nilsequence). The precise statement depends on the Gowers norm under consideration.

The Inverse Conjecture for vector spaces over a finite field $\mathbb F$ asserts that for any $\delta > 0$ there exists a constant $c > 0$ such that for any finite dimensional vector space V over $\mathbb F$ and any complex valued function $f$ on $V$ , bounded by 1, such that $\Vert f \Vert_{U^{d}[V]} \geq \delta$ , there exists a polynomial sequence $P \colon V \to \mathbb{R}/\mathbb{Z}$ such that

\left| \frac{1}{|V|} \sum_{x \in V} f(x) e(-P(x))\right| \geq c ,

where $e(x) := e^{2 \pi i x}$ . This conjecture was proved to be true by Bergelson, Tao, and Ziegler.^[2]^[3]^[4]

The Inverse Conjecture for Gowers $U^{d}[N]$ norm asserts that for any $\delta > 0$ , a finite collection of (d-1)-step nilmanifolds $\mathcal{M}_\delta$ and constants $c ,C$ can be found, so that the following is true. If $N$ is a positive integer and $f\colon [N]\to \mathbb{C}$ is bounded in absolute value by 1 and $\Vert f \Vert_{U^{d}[N]} \geq \delta$ , then there exists a nilmanifold $G/\Gamma \in \mathcal{M}_\delta$ and a nilsequence $F(g^nx)$ where $g \in G,\ x \in G/\Gamma$ and $F\colon G/\Gamma \to \mathbb{C}$ bounded by 1 in absolute value and with Lipschitz constant bounded by $C$ such that:

\left| \frac{1}{N} \sum_{n =0}^{N-1} f(n) \overline{ F(g^nx}) \right| \geq c .

This conjecture was proved to be true by Green, Tao, and Ziegler.^[5]^[6] It should be stressed that the appearance of nilsequences in the above statement is necessary. The statement is no longer true if we only consider polynomial phases.

References

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Gowers norm

Definition

Inverse conjectures

References

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