nNNPDF2.0+EIC


We study the potential impact of unpolarized lepton-proton and lepton-nucleus inclusive Deep-Inelastic Scattering (DIS) cross sections measured at a future Electron-Ion Collider (EIC) on the unpolarized proton and nuclear Parton Distribution Functions (PDFs). To this purpose we include neutral- and charged-current DIS pseudodata in a coherent set of global PDF determinations based on the NNPDF methodology. We find that the EIC could reduce the uncertainty of the light quark PDFs of the proton at large values of the momentum fraction x, and, more significantly, of the quark and gluon PDFs of nuclei, especially of heavy ions, at small and large x. We illustrate how the improved precision of nuclear PDFs can impact predictions for the interaction of ultra-high energy cosmic neutrinos with matter.




nNNPDF20_nlo_as_0118_EICopt_N1

nNNPDF20_nlo_as_0118_EICopt_He4

nNNPDF20_nlo_as_0118_EICopt_Cu64

nNNPDF20_nlo_as_0118_EICopt_Au197

nNNPDF20_nlo_as_0118_EICpes_N1

nNNPDF20_nlo_as_0118_EICpes_He4

nNNPDF20_nlo_as_0118_EICpes_Cu64

nNNPDF20_nlo_as_0118_EICpes_Au197

NNPDF31_nnlo_as_0118_EICopt

NNPDF31_nnlo_as_0118_EICpes