Mathematical Research Letters

Volume 20 (2013)

Number 1

The smallest inert prime in a cyclic number field of prime degree

Pages: 163 – 179

DOI: http://dx.doi.org/10.4310/MRL.2013.v20.n1.a13

Author

Paul Pollack (Department of Mathematics, University of Georgia, Athens, Ga., U.S.A.)

Abstract

Fix an odd prime $\ell$. For each cyclic extension $K/ \mathbf{C}$ of degree $\ell$, let $n_K$ denote the least rational prime that is inert in $K$, and let $r_K$ be the least rational prime that splits completely in $K$. We show that $n_K$ possesses a finite mean value, where the average is taken over all such $K$ ordered by conductor. As an example ($\ell=3$), the average least inert prime in a cyclic cubic field is approximately $2.870$.

We conjecture that $r_K$ also has a finite mean value, and we prove this assuming the Generalized Riemann Hypothesis. For the case $\ell=3$, we give an unconditional proof that the average of $r_K$ exists and is about $6.862$.

2010 Mathematics Subject Classification

Primary 11A15. Secondary 11L40, 11R47.

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