On p-adic multiple Barnes-Euler zeta functions and the corresponding log gamma functions

Abstract

Suppose that ω1,…,ωN are positive real numbers and x is a complex number with positive real part. The multiple Barnes-Euler zeta function ζE,N(s,x;ω) with parameter vector ω=(ω1,…,ωN) is defined as a deformation of the Barnes multiple zeta function as follows ζE,N(s,x;ω)=Σt1=0∞·sΣtN=0∞ (-1)t1+·s+tN(x+ω1t1+·s+ωNtN)s. In this paper, based on the fermionic p-adic integral, we define the p-adic analogue of multiple Barnes-Euler zeta function ζE,N(s,x;ω) which we denote by ζp,E,N(s,x;ω). We prove several properties of ζp,E,N(s,x; ω), including the convergent Laurent series expansion, the distribution formula, the difference equation, the reflection functional equation and the derivative formula. By computing the values of this kind of p-adic zeta function at nonpositive integers, we show that it interpolates the higher order Euler polynomials EN,n(x;ω) p-adically. Furthermore, we define the corresponding multiple p-adic Diamond-Euler Log Gamma function. We also show that the multiple p-adic Diamond-Euler Log Gamma function Log\, \! D,E,N(x;ω) has an integral representation by the multiple fermionic p-adic integral, and it satisfies the distribution formula, the difference equation, the reflection functional equation, the derivative formula and also the Stirling's series expansions.