Toward Precision Helicity PDFs from Global DIS and SIDIS Fits with Projected EIC Measurements

Abstract

We present a new global determination of the helicity-dependent parton distribution functions (PDFs) of the proton, based on inclusive deep-inelastic scattering (DIS) and semi-inclusive DIS (SIDIS) data within a consistent next-to-leading order (NLO) QCD framework. In addition to existing measurements, we incorporate simulated pseudodata for the future Electron-Ion Collider (EIC), considering two beam-energy configurations, Ee × Ep = 5 × 41~GeV2 and 18 × 275~GeV2, corresponding to an extended kinematic reach down to x 10-5. We focus on longitudinal double-spin asymmetries A1h for charge-separated pion and kaon production in SIDIS off a longitudinally polarized proton target. These projected measurements significantly improve the flavor separation of sea-quark polarized PDFs (Δu, Δd, Δs) and reduce the uncertainties on both quark and gluon helicity distributions, with the largest impact at small x. Polarized PDFs are extracted using a neural-network parametrization and a Monte Carlo replica methodology to propagate experimental uncertainties, while theoretical constraints such as positivity are imposed during the fit. We demonstrate that the inclusion of EIC pseudodata leads to a substantially more precise determination of polarized PDFs, with the largest impact in the small-x region. The resulting polarized PDF sets are provided in the LHAPDF format.