The EIC reduced cross sections at high inelasticity

Abstract

The impact of higher-twist corrections to the ratio σrF2(A,Q2/s,Q2) for light and heavy nuclei is considered at fixed a s and Q2 to the minimum value of x given by Q2/s. The results are for the EIC center-of-mass energies. We apply the influence of higher-twist corrections to σrF2(A,Q2/s,Q2) by the dimensionless variable ξ'A=Qs,A2/Q2 in the color dipole model and obtain bounds for the ratio in the linear region. The importance of contributing to twist-4 at small-x is visible in the linear region where ξ'A≤1. We perform that twist-4 corrections of the saturation model are shown the successful behavior of FLF2(A=2,x,Q2) in comparison with the JLab data at ξ'A≤1. The higher-twist corrections due to twist-6 and twist-8 are resummed by the non-linear approaches in the region ξ'A>1. The ratio FLF2 deuteron is considered in the low-Q2 and small-x region and compared with the JLab data which takes into account the non-linear corrections due to twist-6 and twist-8. A comparison with the JLab data shows that the impact of the distinct twists allows us to probe the presence of non-linear effects on the QCD dynamics as FL→0 and the polarization of the virtual photon is transverse in this region.