Speaker: Konstantin Ottnad (Bonn U., HISKP) Title: Position space methods for nucleon form factors Abstract: Certain hadronic quantities such as the magnetic form factor of the nucleon cannot be calculated directly on the lattice at zero momentum transfer. Usually these observables are extracted from lattice data by adopting a parametrization for their momentum dependence and fitting the results obtained at finite momenta. Here we discuss methods that rely on taking derivatives of relevant correlation functions to tackle such quantities directly, i.e. without the need to assume a functional form for their momentum dependence. Unlike the standard method, this approach requires correlation functions in position space. We consider several observables of physical interest, including the isovector magnetic form factor of the nucleon, its charge radius and the electric dipole moment of the neutron.