54 KAM Mathematical Colloquium

Prof. Ben Green

University of Bristol

ARITHMETIC PROGRESSIONS IN THE PRIMES

February 9, 2005

Lecture room S5, II. floor 10:30 AM

Abstract

I will outline the recent proof that there are arbitrarily long arithmetic progressions of primes, which is joint work with Terry Tao.

THE GOWERS $U^3$ NORM AND ITS APPLICATIONS

10. 2. 2005 v 10:30, S5

Abstract

The Gowers $U^3$ norm is one of a series of norms on the space $\mathbf{C}(G)$ of complex valued functions on a finite abelian group $G$. These norms are called the Gowers $U^d$ norms. The Gowers $U^{k-1}$ norm is relevant to the study of arithmetic progressions of length $k$. The $U^2$ norm is well understood, largely because the $U^2$ norm of a function $f$ is just the $L^4$ norm of the Fourier transform of $f$. I will discuss the $U^3$ norm, attempting to answer the following questions: \begin{itemize} \item What is the $U^3$ norm? \item Why is it useful for studying arithmetic progressions of length 4? \item When is the $U^3$ norm of $f$ large? \item How can this help us count the number of 4-term arithmetic progressions of primes less than $N$?