Linear equations in Piatetski-Shapiro primes

Abstract

We establish discorrelation estimates between the Piatetski-Shapiro prime set \[ Pγ := \p is prime and p = n1/γ for some n ∈ N\ \] and arbitrary nilsequences when γ∈ (0,1) is sufficiently close to 1. This extends earlier works which treated linear or polynomial exponential phase functions. As an application, we establish an asymptotic formula for the number of solutions in Pγ to any &#34;finite-complexity&#34; system of linear equations, including for the number of k-term arithmetic progressions in Pγ up to a threshold N for any given k ≥ 3. Furthermore, we show that there exists an absolute constant C>0 such that if \[ 1 - 2-Ck < γ< 1, \] then the Piatetski-Shapiro primes Pγ contain infinitely many non-trivial k-term arithmetic progressions. This significantly improves upon the previous range of γ obtained by Li and Pan, which is of triple exponential type.