On a pair of zeta functions

Abstract

Let m be a positive integer, and define ζm(s)=Σn=1∞(-e2π i/m)ω(n)ns\ \ \ \ and \ \ \ \ ζ*m(s)=Σn=1∞(-e2π i/m)(n)ns, for (s)>1, where ω(n) denotes the number of distinct prime factors of n, and (n) represents the total number of prime factors of n (counted with multiplicity). In this paper we study these two zeta functions and related arithmetical functions. We show that Σ∞n=1 n\ is squarefree(-e2π i/m)ω(n)n=0\ \ m>4, which is similar to the known identity Σn=1∞μ(n)/n=0 equivalent to the Prime Number Theorem. For m>4, we prove that ζm(1):=Σn=1∞(-e2π i/m)ω(n)n=0 \ \ \ \ and\ \ \ \ ζ*m(1):=Σn=1∞(-e2π i/m)(n)n=0. We also raise a hypothesis on the parities of (n)-n which implies the Riemann Hypothesis.