Chiral corrections to π-γ 3π processes at low energies

Abstract

We calculate in chiral perturbation theory the double-pion photoproduction processes π-γ π- π0π0 and π-γ π+π-π- at low energies. At leading order these reactions are governed by the chiral pion-pion interaction. The next-to-leading order corrections arise from pion-loop diagrams and chiral-invariant counterterms involving the low-energy constants 1,\, 2,\, 3 and 4. The pertinent production amplitudes A1 and A2 depending on five kinematical variables are given in closed analytical form. We find that the total cross section for neutral pion-pair production π-γ π-π0π0 gets enhanced in the region s< 7mπ by a factor 1.5 - 1.8 by the next-to-leading order corrections. In contrast to this behavior the total cross section for charged pion-pair production π-γ π+ π-π- remains almost unchanged in the region s< 6mπ in comparison to its tree-level result. Although the dynamics of the pion-pair production reactions is much richer, this observed pattern can be understood from the different influence of the chiral corrections on the pion-pion final state interaction (π+π- π0π0 versus π-π- π-π-). We present also results for the complete set of two-pion invariant mass spectra. The predictions of chiral perturbation theory for the π-γ 3π processes can be tested by the COMPASS experiment which uses Primakoff scattering of high-energy pions in the Coulomb field of a heavy nucleus to extract cross sections for π-γ reactions with various final states.