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Real zeros of Dedekind zeta functions of real quadratic fields

Authors:	Kok Seng Chua

Institution:	Software and Computing Programme, Institute of High Performance Computing, 1 Science Park Road, \#01-01, The Capricorn, Singapore Science Park II, Singapore 117528

Abstract:	Let $\chi$ be a primitive, real and even Dirichlet character with conductor , and let be a positive real number. An old result of H. Davenport is that the cycle sums $S_\nu(s,\chi)=\sum_{n=\nu q+1}^{(\nu+1)q-1} \frac{\chi(n)}{n^s}, \nu = 0,1,2,\dots,$ are all positive at and this has the immediate important consequence of the positivity of $L(1,\chi)$ . We extend Davenport's idea to show that in fact for $\nu \geq 1$ , $S_\nu(s,\chi)>0$ for all with $1/2 \leq s \leq 1$ so that one can deduce the positivity of $L(s,\chi)$ by the nonnegativity of a finite sum $\sum_{\nu=0}^t S_\nu(s,\chi)$ for any $t \geq 0$ . A simple algorithm then allows us to prove numerically that $L(s,\chi)$ has no positive real zero for a conductor up to 200,000, extending the previous record of 986 due to Rosser more than 50 years ago. We also derive various estimates explicit in of the $S_\nu(s,\chi)$ as well as the shifted cycle sums $T_\nu(s,\chi):=\sum_{n=\nu q+\lfloor q/2 \rfloor+1}^{(\nu+1) q+\lfloor q/2 \rfloor} \frac{\chi(n)}{n^s}$ considered previously by Leu and Li for . These explicit estimates are all rather tight and may have independent interests.

Keywords:	Real zeros of $L$ functions Dirichlet series primitive characters

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