Coherent-Nuclear Pion Photoproduction and Neutron Radii

Abstract

Background: Knowing the difference between the neutron and proton densities of nuclei is a significant topic because of its importance for understanding neutron star structures and cooling mechanisms. The coherent-nuclear photoproduction of pions, (,π0), combined with elastic electron scattering, has been suggested to be a very accurate probe of density differences. Purpose: Study the (,π0) reaction mechanism so as to better access the uncertainties involved in extracting the neutron density. Methods: Include the effects of final-state pion-nucleus charge-exchange reactions on the cross section and study the influence of the non-zero spatial extent of the proton. Results: The effects of final-state charge-exchange increase the cross section between 6\% and 5\%, generally decreasing as the momentum transfer increases. This leads to an increase of the extracted neutron skin distance by about 50\%. The validity of the previous treatments of the proton size is confirmed. Conclusion: The model dependence of the theoretically computed cross section increases the total systematic uncertainty (experiment plus theory) in extracting the neutron skin from the (,π0) cross section by at least a factor of three.