Cross sections for low-energy $Ï^-γ$ reactions
arXiv:0803.0995 · doi:10.1140/epja/i2008-10582-9
Abstract
We review the cross sections for low-energy $Ï^- γ$ reactions in the framework of chiral perturbation theory. Charged pion Compton scattering, $Ï^- γ\to Ï^-γ$, is considered up to one-loop order where the pion's internal structure enters through the difference of the electric and magnetic pion polarizability, $α_Ï- β_Ï$. The ongoing COMPASS experiment aims at measuring this important structure constant with high statistics using the Primakoff effect. In the same way, the reaction $Ï^- γ\to Ï^- Ï^0$ serves as a test of the QCD chiral anomaly (via the $γ3Ï$-coupling constant $F_{\gamma3Ï}$). Furthermore, we calculate the total cross sections for neutral and charged pion-pair production, $Ï^- γ\to Ï^- Ï^0Ï^0$ and $Ï^- γ\to Ï^-Ï^+Ï^-$, which are governed by the chiral $ÏÏ$-interaction. Finally, we investigate the radiative (correction) process $Ï^- γ\to Ï^- γγ$ and calculate the corresponding two-photon mass spectrum. This information will be useful for analyzing the $Ï^-$ Primakoff scattering events with photons in the final state.
14, pages, 10 figures, submitted to EPJA