Quantitative asymptotics for polynomial patterns in the primes

Abstract

We prove quantitative estimates for averages of the von Mangoldt and M\"obius functions along polynomial progressions n+P1(m),…, n+Pk(m) for a large class of polynomials Pi. The error terms obtained save an arbitrary power of logarithm, matching the classical Siegel--Walfisz error term. These results give the first quantitative bounds for the Tao--Ziegler polynomial patterns in the primes result. The proofs are based on a quantitative generalised von Neumann theorem of Peluse, a recent result of Leng on strong bounds for the Gowers uniformity of the primes, and analysis of a ``Siegel model'' for the von Mangoldt function along polynomial progressions.

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