Beam single spin asymmetry ALU φR of the dihadron production in SIDIS process

Abstract

We study the longitudinal beam single-spin asymmetry ALU φR of dihadron production in semi-inclusive deep inelastic scattering process with a polarized electron beam scattering off an unpolarized proton target. The asymmetry arises from the convolutions of twist-3 PDF e(x) and twist-2 DiFF H1 as well as twist-2 PDF f1(x) and twist-3 DiFF G. Using the spectator model calculations for the twist-3 PDF e(x), the DiFFs D1 , H1, and G, we estimate the BSA A φRLU at the kinematical configuration of CLAS and CLAS12. We find good agreement with z- and Mh-dependencies data, though x- and Q2- dependencies show discrepancies. We include DGLAP evolution of e(x) and provide predictions for COMPASS, EIC, and EicC. The negligible contribution from f1(x) G supports the Wandzura-Wilczek approximation, while our results highlight the importance of QCD evolution in twist-3 PDF analyses.