Global properties of proton-proton collisions at s = 100 TeV

Abstract

The global properties of the final states produced in hadronic interactions of protons at centre-of-mass energies of future hadron colliders (such as FCC-hh at CERN, and SppC in China), are studied. The predictions of various Monte Carlo (MC) event generators used in collider physics (PYTHIA 6, PYTHIA 8, and PHOJET) and in ultrahigh-energy cosmic-rays studies (EPOS, and QGSJET) are compared. Despite their different underlying modeling of hadronic interactions, their predictions for proton-proton (p-p) collisions at s = 100 TeV are quite similar. The average of all MC predictions (except PHOJET) for the different observables are: (i) p-p inelastic cross sections σ inel = 105 2 mb; (ii) total charged multiplicity N_ ch = 150 20; (iii) charged particle pseudorapidity density at midrapidity dNch/dη|η=0 = 9.6 0.2; (iv) energy density at midrapidity dE/dη|η=0 = 13.6 1.5 GeV, and dE/dη|η=5 = 670 70 GeV at the edge of the central region; and (v) average transverse momenta at midrapidities < pT> = 0.76 0.07 GeV/c. At midrapidity, EPOS and QGSJET-II predict larger per-event multiplicity probabilities at very low ( N ch<3) and very high ( N ch>100) particle multiplicities, whereas PYTHIA 6 and 8 feature higher yields in the intermediate region N ch≈ 30--80. These results provide useful information for the estimation of the detector occupancies and energy deposits from pileup collisions at the expected large FCC-hh/SppC luminosities.