With the publicly available astrophysical simulation framework for
propagating extraterrestrial UHE particles, CRPropa 3, it is now possible to
study realistic UHECR source scenarios including deflections in Galactic and
extragalactic magnetic fields in an efficient way. Here we discuss three recent
studies that have already been done in that direction. The first one
investigates what can be expected in the case of maximum allowed intergalactic
magnetic fields. Here is shown that, even if voids contain strong magnetic
fields, deflections of protons with energies ≳60EeV from
nearby sources might be small enough to allow for UHECR astronomy. The second
study looks into several scenarios with a smaller magnetization focusing on
large-scale anisotropies. Here is shown that the local source distribution can
have a more significant effect on the large-scale anisotropy than the EGMF
model. A significant dipole component could, for instance, be explained by a
dominant source within 5 Mpc distance. The third study looks into whether
UHECRs can come from local radio galaxies. If this is the case it is difficult
to reproduce the observed low level of anisotropy. Therefore is concluded that
the magnetic field strength in voids in the EGMF model used here is too low
and/or there are additional sources of UHECRs that were not taken into account
in these simulations.Comment: UHECR2016 conference proceedin
