The prime number race and zeros of Dirichlet L-functions off the critical line (1910.08976v1)

Abstract: Let $\pi_{q,a}(x)$ denote the number of primes $\le x$ in the progression $a$ modulo $q$. We study subtle inequities in these functions, with $q$ fixed and variable $a$ (sometimes called 'prime race problems'). It is known unconditionally for many triples $(q,a,b)$ that the difference $\pi_{q,a}(x) - \pi_{q,b}(x)$ changes sign infinitely often, although there may be a pronounced bias toward one sign (first observed by Chebyshev in 1853). Similar results for the comparison of three or more prime counting functions all require the assumption of ERH (extended Riemann Hypothesis for the Dirichlet L-functions modulo $q$). In this paper we show that the assumption of ERH is, in a sense, necessary. That is, we prove, for any quadruple $(q,a,b,c)$ with $a,b,c$ co-prime to $q$, that the existence of certain hypothetical configurations of zeros of Dirichlet L-functions lying off the critical line imply that one of the six possible orderings of the three functions $\pi_{q,a}(x), \pi_{q,b}(x), \pi_{q,c}(x)$ does not occur at all for large enough $x$.