Paper detail

Primes in the Chebotarev density theorem for all number fields

We establish an explicit bound for the least prime occurring in the Chebotarev density theorem without any restriction. Let $L/K$ be any Galois extension of number fields such that $L\not=\mathbb{Q}$, and let $C$ be a conjugacy class in the Galois group of $L/K$. We show that there exists an unramified prime $\mathfrak{p}$ of $K$ such that $σ_{\mathfrak{p}}=C$ and $N \mathfrak{p} \le d_{L}^{B}$ with $B= 310$. This improves the value $B=12\,577$ as proven by Ahn and Kwon. In comparison to previous works on the subject, we modify the weights to detect the least prime, and we use a new version of Turán's power sum method which gives a stronger Deuring-Heilbronn (zero-repulsion) phenomenon. In addition, we refine the analysis of how the location of the potential exceptional zero for $ζ_L(s)$ affects the final result. We also use Fiori's numerical verification for $L$ up to a certain discriminant height. Finally, we provide a lower bound for the number of unramified primes $\mathfrak{p}$ of $K$ such that $σ_{\mathfrak{p}}=C$.