Bounds on the rise of total cross section from LHC7 and LHC8 data

Abstract

Recent measurements of the proton-proton total cross section σtot at 7 and 8 TeV by the TOTEM and ATLAS Collaborations are characterized by some discrepant values: the TOTEM data suggest a rise of the cross section with the energy faster than the ATLAS data. Attempting to quantify these different behaviors, we develop new analytical fits to σtot and data from pp and pp scattering in the energy region 5 GeV - 8 TeV. The dataset comprises all the accelerator data below 7 TeV and we consider three ensembles by adding: either only the TOTEM data (T), or only the ATLAS data (A), or both sets (T+A). For the purposes, we use our previous RRPLγ parametrization for σtot(s), consisting of two Reggeons (RR), one critical Pomeron (P) and a leading log-raised-to-gamma (Lγ) contribution (with γ as a free fit parameter), analytically connected to (s) through singly-subtracted derivative dispersion relations and energy scale fixed at the physical threshold. The data reductions with ensembles T and A present good agreement with the experimental data analyzed and cannot be distinguished on statistical grounds. The quality of the fit is not as good with ensemble T+A. The fit results provide γ 2.3 0.1 (T), 2.0 0.2 (A), 2.1 0.2 (T+A), with 2/DOF 1.07 (T), 1.09 (A), 1.14 (T+A), suggesting extrema bounds for γ given by 1.8 and 2.4. Fits with γ = 2 (fixed) are also developed and discussed.