Partial Sums of the Series for the Dirichlet Eta Function, their Peculiar Convergence, the Simple Zeros Conjecture, and the RH

Abstract

For any s ∈ C with (s)>0, denote by ηn-1(s) the (n-1)th partial sum of the Dirichlet series for the eta function η(s)=1-2-s+3-s-·s \;, and by Rn(s) the corresponding remainder. Denoting by un(s) the segment starting at ηn-1(s) and ending at ηn(s), we first show how, for sufficiently large n values, the circle of diameter un+2(s) lies strictly inside the circle of diameter un(s), to then derive the asymptotic relationship Rn(s) (-1)n-1/ns, as n → ∞. Denoting by D=\s ∈ C: \; 0< (s) < 12\ the open left half of the critical strip, define for all s∈ D the ratio n(s) = ηn(1-s) / ηn(s). We then prove that the limit L(s)=N(s)<n∞ n(s) exists at every point s of the domain D. The function L(s) is continuous on D if and only if the Riemann Hypothesis is true. Finally, we remark how the asymptotic behaviour of Rn(s) can also provide insights substantiating the so called Simple Zeros Conjecture.