Measurements of Beam Spin Asymmetries of ππ0 dihadrons at CLAS12

Abstract

A first measurement of beam spin asymmetries for π+π0 and π-π0 pairs in semi-inclusive deep inelastic scattering is reported. The asymmetries in the dihadron angular distributions were measured from the scattering of a 10.6 GeV longitudinally polarized electron beam off a proton target, using the CLAS12 detector at Jefferson Lab. A photon classifier using a Gradient Boosted Trees (GBTs) architecture was trained with Monte Carlo simulations to reduce the amount of false combinatorial background π0s, increasing statistics by up to five-fold compared to previous CLAS12 π0 analyses. A nonzero φR asymmetry is observed. This measurement is sensitive to the underexplored collinear twist-3 PDF e(x), which encodes quark-gluon correlations in the proton, and presents a new avenue for its point-by-point extraction. The asymmetries also provide the first experimental evidence for the isospin-dependence of the helicity-dependent dihadron fragmentation function G1, revealed by a sign-difference between the π+π0 and π-π0 channels in the (φh-φR) modulation. In contrast, a large, same-sign enhancement near the mass for the (2φh-2φR) modulation is observed, matching spectator model predictions in π+π- pairs.