I want to solve the following optimization problem 

\begin{align}
\inf_{ X: |X| \le a \text{ a.s.}}   E \left[ \frac{1}{1+(X-X^\prime)^2} \right]
\end{align}
where $X^\prime$ is an independent copy of $X$ and $a>0$ is some constant.  

 How would one approach such a problem. Is the solution easy to find? 


At some point I thought that the optimal distribution is given by $X=\{-a,a\}$ equally likely.  In which case, the solution is given by
\begin{align}
\inf_{ X: |X| \le a \text{ a.s.}}   E \left[ \frac{1}{1+(X-X^\prime)^2} \right] \le \frac{1}{2}\frac{1}{1+4a^2}+\frac{1}{2}. 
\end{align}
However, I don't have any supporting arguments for this.