To the best of my knowledge, there have not been any double-slit experiments specifically conducted with a screen target consisting of a single nucleus or a large array of nuclei. The double-slit experiment is typically performed using light, electrons, or other particles with wavelengths on the order of nanometers or larger.
The double-slit experiment has primarily been used to study the wave-particle duality of particles like photons or electrons. These particles have wavelengths that are compatible with the experimental setup and can exhibit interference patterns on a screen behind the slits.
However, it's worth noting that similar principles of wave-particle duality apply to other particles as well, including X-rays and their interaction with atomic nuclei. X-ray scattering experiments are commonly used to study the structure of materials, but they typically involve the scattering of X-rays by the electrons in the atoms rather than the nuclei themselves.
While I'm not aware of specific experiments involving a double-slit setup with nuclei as the target, it's important to remember that scientific research is continually evolving, and new experiments and techniques are constantly being developed. It's possible that there may be ongoing or future experiments exploring the behavior of particles at even smaller scales, including interactions with nuclei.