English

pp Elastic Scattering at LHC Proton Structure Outer Cloud - Inner Shell - Gluon Core

High Energy Physics - Phenomenology 2017-09-29 v4

Abstract

Our investigation of high energy pp\rm{pp} and pˉp\bar{\rm{p}}\rm{p} elastic scattering over the last two decades has led us to consider that the proton has three regions: i) an outer region consisting of a quark-antiquark (qqˉ\rm{q}\bar{\rm{q}}) condensate ground state (also described as quark-antiquark outer cloud), ii) an inner shell of baryonic charge of size ~0.44 fm, and iii) a core of size ~0.2 fm, where the three valence quarks of a proton with baryonic charges are confined. The proton structure that has emerged leads to four main elastic scattering processes in pp\rm{pp} scattering. The first process, which gives rise to diffraction scattering, is due to a glancing collision of the outer cloud of one proton with that of another proton. In a pˉp\bar{\rm{p}}\rm{p} glancing collision the corresponding process occurs. The second process involves multiple \omega-exchanges. The third process in pp\rm{pp} scattering is quark-quark scattering via gluon-gluon interaction. The fourth process - which appears for the first time in our investigation of pp\rm{pp} scattering - is a glancing collision at the boundary of a proton cloud with that of the other proton cloud. To describe quantitatively the four processes, their parameters have been determined. For this purpose, we investigated pp\rm{pp} 7 TeV d\sigma/dt measured by the TOTEM Collaboration and pˉp\bar{\rm{p}}\rm{p} 1.96 TeV d\sigma/dt measured by the D0 Collaboration. Our calculated pp\rm{pp} elastic d\sigma/dt at 13 TeV has no oscillations in the large |t| region, in good agreement with the preliminary TOTEM measurements.

Keywords

Cite

@article{arxiv.1709.03172,
  title  = {pp Elastic Scattering at LHC Proton Structure Outer Cloud - Inner Shell - Gluon Core},
  author = {M. M. Islam and R. J. Luddy},
  journal= {arXiv preprint arXiv:1709.03172},
  year   = {2017}
}

Comments

Presented at EDS17 Blois

R2 v1 2026-06-22T21:38:28.768Z