The electronic quasiparticle structure of a ferromagnetic local moment film
is investigated within the framework of the s-f model. For the special case of
a single electron in an otherwise empty energy band being exchange coupled to a
fully ordered localised spin system the problem can be solved exactly and, for
the spin-down electron, some marked correlation effects can be found. We extend
our model to incorporate the influence of the surface on the electronic
structure. Therefore we modify the hopping integrals in the vicinity of the
surface. This leads to the existence of surface states, both for the spin-up
and the spin-down spectral density of states. The interplay between the
modification of the hopping integrals and the existence of surface states and
correlation effects is discussed in detail.Comment: 9 pages, 9 figures, accepted for publication in European Physical
Journal