Hadron collisions at ultrahigh energies: black disk or resonant disk modes?

Abstract

The analysis of current ultrahigh energy data for hadronic total cross sections and diffractive scattering cross sections points to a steady growth of the optical density with energy for elastic scattering amplitudes in the impact parameter space, b. At LHC energy the profile function of the pp-scattering amplitude, T(b), reaches the black disk limit at small b. Two scenarios are possible at larger energies, s 100 TeV. First, the profile function gets frozen in the black disk limit, T(b) 1 while the radius of the black disk Rblack\;disk is increasing with s, providing σtot 2s, σel 2s, σinel 2s. In another scenario the profile function continues to grow at s 100 TeV approaching the maximal value, T(b) 2, that means the resonant disk mode. We discuss features of the resonant disk mode when the disk radius, Rresonant\;disk\,, increases providing the growth of the total and elastic cross sections σtot 2s, σel 2s, but a more slow increase of inelastic cross section, σinel s.