On ultrahigh-energy neutrino-nucleon deep-inelastic scattering and the Froissart bound

Abstract

A brief review of the results for the total cross section σ N of ultrahigh-energy neutrino deep inelastic scattering on isoscalar nuclear targets is presented. These results are based on simple approximations for σ N and are compared with the experimental data of the IceCube Collaboration. The total cross section σ N is proportional to the structure function F2 N(MV2/s,MV2), where MV is the intermediate boson mass and s is square of the energy of the center of mass. The coefficient in the front of F2 N(MV2/s,MV2) depends on the asymptotic behavior of F2 N at low values of x. It contains an additional term s if F2 N is scaled by the power (1/x). Therefore, the asymptotic behavior of F2 N2(1/x) for small x often assumed in the literature already leads to violation of the Froissart bound for σ N.