An application of linear programming duality to discrete Fourier analysis and additive problems

Abstract

Suppose that f is a function from Zp -> [0,1] (Zp is my notation for the integers mod p, not the p-adics), and suppose that a1,...,ak are some places in Zp. In some additive number theory applications it would be nice to perturb f slightly so that Fourier transform f vanishes at a1,...,ak, while additive properties are left intact. In the present paper, we show that even if we are unsuccessful in this, we can at least say something interesting by using the principle of the separating hyperplane, a basic ingredient in linear programming duality.