greetings. we have the following integral : 

$I(s)=\int_{0}^{\infty} \frac{s}{2x}\left(E_{s/2}((\pi x)^{s/2})-1\right)\omega(x)dx -\lim_{z \to 1 }\zeta(z)$

where : 
$E_{\alpha}(z)$ is the mittag-leffler fuction 

$\omega(x)=\frac{\theta(ix)-1}{2}$

$\theta(x)$ is the jacobi theta function 

and $\zeta(s)$ is the Riemann zeta function 

the integral behaves well for $Re(s)>1$ . i am trying to extend the domain of the integral to the whole complex plane except for some points. i have tried the identities:

$\omega(x^{-1})=-\frac{1}{2}+\frac{1}{2}x^{1/2}+x^{1/2}\omega(x)$

and 

$E_{\alpha}(z^{-1})=1-E_{-\alpha}(z)$ 

to split the integration at 1 , and replace $x$ by $x^{-1}$ in the interval [0,1], and hoped to get a factor that would cancel out with the divergent $\zeta(z)$, and get the Euler–Mascheroni constant or something . but it seems i am lost !!! hence, the post .