Abstract
We present a study on the double longitudinal-spin asymmetry of dihadron production in semi-inclusive deep inelastic scattering, in which the total transverse momentum of the final-state hadron pairs is integrated out. In particular, we investigate the origin of the $\cos\phi_R$ azimuthal asymmetry for which we take into account the coupling of the helicity distribution $g_1$ and the twist-3 dihadron fragmentation function $\widetilde{D}^{\sphericalangle}$. We calculate the $s$-wave and $p$-wave interference term $\widetilde{D}^{\sphericalangle}_{ot}$ in a spectator model. We estimate the $\cos\phi_R$ asymmetry at the kinematics of COMPASS which is collecting data on dihadron production in polarized deep inelastic scattering. The prediction of the same asymmetry at JLab 12GeV and a future EIC are also presented. Our study indicates that measuring the $\cos\phi_R$ asymmetry in SIDIS may be a ideal way to probe the dihadron fragmentation function $\widetilde{D}^{\sphericalangle}$.
Highlights
The spin and azimuthal asymmetries in the semiinclusive deep inelastic scattering (SIDIS) process [1,2,3,4,5] have been recognized as useful tools for exploring both the partonic structure of the nucleon and the hadronization mechanism of hadrons, which are among the main tasks in QCD and hadronic physics
We studied the origin of the cos φR asymmetry of hadron pair production in double polarized
The asymmetry can originate from the coupling of the twist-3 dihadron fragmentation function (DiFF) D ∢
Summary
We present a study on the double longitudinal-spin asymmetry of dihadron production in semi-inclusive deep inelastic scattering (SIDIS), in which the total transverse momentum of the final-state hadron pairs is integrated out. We investigate the origin of the cos φR azimuthal asymmetry for which we take into account the coupling of the helicity distribution g1 and the twist-3 dihadron fragmentation function D ∢. We estimate the cos φR asymmetry at the kinematics of COMPASS which is collecting data on dihadron production in polarized deep inelastic scattering. The prediction of the same asymmetry at JLab 12 GeV and a future electron-ion collider are presented. Our study indicates that measuring the cos φR asymmetry in SIDIS may be a ideal way to probe the dihadron fragmentation function D ∢
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