On linear relations for Dirichlet series formed by recursive sequences of second order

Abstract

Let Fn and Ln be the Fibonacci and Lucas numbers, respectively. Four corresponding zeta functions in s are defined by \[ζF(s) \,:=\, Σn=1∞ 1Fns\,, ζF*(s) \,:=\,Σn=1∞ (-1)n+1Fns\,, ζL(s) \,:=\, Σn=1∞ 1Lns\,, ζL*(s) \,:=\, Σn=1∞ (-1)n+1Lns \,.\] For positive integers s the transcendence of these values is known as well as algebraic independence or dependence results for sets of these numbers. In this paper, we investigate linear forms in the above zeta functions and determine the dimension of linear spaces spanned by such linear forms. In particular, it is established that for any positive integer m the solutions of \[Σs=1m ( \,tsζF(2s) + usζF*(2s) + vsζL(2s) + wsζL*(2s) \,) \,=\, 0 \] with ts,us,vs,ws ∈ Q (1≤ s≤ m) form a Q-vector space of dimension m. This proves a conjecture from the Ph.D. thesis of M. Stein, who, in 2012, was inspired by the relation -2ζF(2)+ζF*(2)+5ζL*(2)=0. All the results are also true for zeta functions in s where the Fibonacci and Lucas numbers are replaced by numbers from sequences satisfying a second order recurrence formula.