ATOMIC VERSUS MOLECULAR DIFFRACTION - INFLUENCE OF BREAKUPS AND FINITE-SIZE

Atomic diffraction through double slits and transmission gratings is w ell described in terms of the associated de Broglie waves and classica l wave optics. However, for weakly bound and relatively large systems, such as the He-2 dimer, this might no longer hold true due to the pos sibility of breakup processes and finite-size effects. We therefore st udy the diffraction of weakly bound two-particle systems. if the bar a nd slit widths of the grating are much larger than the diameter of the two-particle system, we recover the usual optics results. For smaller widths, however, deviations therefrom occur. We find that the locatio n of possible diffraction peaks is indeed still governed by the usual grating function from optics, but the peaks may have a lower intensity . This is not unexpected when breakup processes are allowed. More unus ually though, diffraction peaks that would be absent for de Broglie wa ves may reappear. The results are illustrated for diffraction of He-2.