Bounded gaps between primes with a given primitive root

Abstract

Fix an integer g ≠ -1 that is not a perfect square. In 1927, Artin conjectured that there are infinitely many primes for which g is a primitive root. Forty years later, Hooley showed that Artin's conjecture follows from the Generalized Riemann Hypothesis (GRH). We inject Hooley's analysis into the Maynard--Tao work on bounded gaps between primes. This leads to the following GRH-conditional result: Fix an integer m ≥ 2. If q1 < q2 < q3 < … is the sequence of primes possessing g as a primitive root, then n∞ (qn+(m-1)-qn) ≤ Cm, where Cm is a finite constant that depends on m but not on g. We also show that the primes qn, qn+1, …, qn+m-1 in this result may be taken to be consecutive.