I am trying to evaluate the following integral involving the Bessel function, power, exponential and a Airy function:
$$ \int_{0}^\infty \text{Ai}(-x)J_0(\alpha x) \exp(-\beta x^2) \, x \, dx $$
where $\alpha =kx'/z$ and $\beta = ik/2z$. I tried a method that is to rewrite the airy function $\text{Ai}(x)$ with Bessel functions. In that case, the function above will become
$$ \int_{0}^\infty \frac { x^{\frac 3 2}} {3} J_{1/3} \left(\frac {3} {2} x^ \frac {3} {2}\right)J_0(\alpha x)\, \exp(-\beta x^2) \, dx + \int_{0}^\infty \frac { x^{\frac 3 2}} {3} J_{-1/3} \left(\frac {3} {2} x^ \frac {3} {2}\right)J_0(\alpha x)\, \exp(-\beta x^2)\, dx,$$
and two Bessel equations appear.
Could anyone please help?