Optimization Tools for Computing Colorings of [1,·s ,n] with Few Monochromatic Solutions on 3-variable Linear Equations

Abstract

A famous result in arithmetic Ramsey theory says that for many linear homogeneous equations E there is a threshold value Rk(E) (the Rado number of E) such that for any k-coloring of the integers in the interval [1,n], with n Rk(E), there exists at least one monochromatic solution. But one can further ask, how many monochromatic solutions is the minimum possible in terms of n? Several authors have estimated this function before, here we offer new tools from integer and semidefinite optimization that help find either optimal or near optimal 2-colorings minimizing the number of monochromatic solutions of several families of 3-variable non-regular homogeneous linear equations. In the last part of the paper we further extend to three and more colors for the Schur equation, improving earlier work.

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