Title:Polarizability of the Nucleon and Compton Scattering

Abstract: Different approaches to describe Compton scattering and the polarizability of the nucleon have been discussed up to now. We show that the most appropriate ones are provided by non-subtracted dispersion theories of the fixed-$t$ and fixed-$\theta$ types, where the properties of these two versions are complementary so that advantage can be taken from both of them. In the frame of fixed-$t$ dispersion theory it was possible to precisely reproduce experimental differential cross sections obtained for the proton in a wide angular range and for energies up to 1 GeV. At energies of the first resonance region and below, precise values for the electromagnetic polarizabilities and spin-polarizabilities have been determined for the proton and the neutron. The data show that diamagnetism is a prominent property of nucleon structure, where the underlying mechanism is a $t$-channel $\sigma$-meson exchange. A similar mechanism is responsible for the backward spin-polarizability where the relevant meson is the $\pi^0$. It is a challenge for further research to integrate the $\sigma$ and $\pi^0$ intermediate states into a consistent description of the structure of the nucleon.