Novel azimuthal observables from two-photon collision at e+e- colliders

Abstract

In this work we advocate a set of novel azimuthal-angle-related observables associated with exclusive hadron production from two-photon fusion at e+ e- colliders, taking the γγ ππ as a benchmark process. As a direct consequence of the linearly polarized quasi-real photons emitted off the electron and positron beams, the 2φ azimuthal asymmetry in dipion production is predicted within the transverse-momentum-dependent (TMD) factorization framework. In numerical analysis, we take the helicity amplitudes of γγ ππ determined from the partial wave solutions in dispersion relation as input, and find that the predicted 2φ azimuthal modulation may reach 40\% for the typical kinematical setup of Belle 2 and BESIII experiments. Future accurate measurement of this azimuthal asymmetry may facilitate the direct extraction of the relative phase between two helicity amplitudes with photon helicity configurations ++ and +-. This knowledge provides a valuable input for the dispersive determination of the hadronic light-by-light (Hlbl) contributions.