An Euler-type formula for β(2n) and closed-form expressions for a class of zeta series

Abstract

In a recent work, Dancs and He found an Euler-type formula for \,ζ(2\,n+1), \,n\, being a positive integer, which contains a series they could not reduce to a finite closed-form. This open problem reveals a greater complexity in comparison to ζ(2n), which is a rational multiple of π2n. For the Dirichlet beta function, the things are `inverse': β(2n+1) is a rational multiple of π2n+1 and no closed-form expression is known for β(2n). Here in this work, I modify the Dancs-He approach in order to derive an Euler-type formula for \,β(2n), including \,β(2) = G, the Catalan's constant. I also convert the resulting series into zeta series, which yields new exact closed-form expressions for a class of zeta series involving \,β(2n) and a finite number of odd zeta values. A closed-form expression for a certain zeta series is also conjectured.