Prime Number Theorems for Polynomials from Homogeneous Dynamics
Abstract
We establish a new class of examples of the multivariate Bateman-Horn conjecture by using tools from dynamics. These cases include the determinant polynomial on the space of matrices, the Pfaffian on the space of skew-symmetric matrices, and the determinant polynomial on the space of symmetric matrices. In particular, let be any pair among the following: , , and We then obtain an asymptotic for that matches the Bateman-Horn prediction. The key ingredients of our proof are an asymptotic count for integral points on the level sets of given by Linnik equidistribution, a geometric approximation of the box by cones, and an upper bound sieve to bound the number of prime values missed by the approximation. In the case of the determinant polynomial on symmetric matrices, we must also use the Siegel mass formula to compute the product of local densities for the main term.
Cite
@article{arxiv.2312.11445,
title = {Prime Number Theorems for Polynomials from Homogeneous Dynamics},
author = {Giorgos Kotsovolis and Katharine Woo},
journal= {arXiv preprint arXiv:2312.11445},
year = {2023}
}
Comments
38 pages