Mathematics – Logic
Scientific paper
May 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001aipc..566..326p&link_type=abstract
OBSERVING ULTRAHIGH ENERGY COSMIC RAYS FROM SPACE AND EARTH: International Workshop. AIP Conference Proceedings, Volume 566, pp
Mathematics
Logic
Total Cross Sections, Elementary Particle Processes, Cosmic Rays
Scientific paper
Present estimations of proton-proton total cross sections at very high energies are obtained from cosmic rays (>1017 eV): by means of some approximations, it is possible to get a value for the proton-proton total cross section from the knowledge of the proton-air cross section at these energies. Besides, total cross sections are measured with present day high energy colliders up to nearly 2 TeV in the center of mass (~1015 eV in the lab.): several theoretical, empirical or semi-empirical parametrizations, very successful for interpolation at accelerator energies, can then be used to extrapolate the measured value to cosmic ray energies and get a reasonable estimation of cross sections at higher energies (~1017 eV). Here we use a phenomenological model based on the Multiple-Diffraction approach to estimate proton-proton total cross sections at cosmic ray energies: on the basis of a forecasting regression analysis we determine confident error bands. We show that our predictions are highly sensitive to the employed data for extrapolation. When both cross section estimations-from accelerators data and most cosmic rays results-are compared, a disagreement is observed, amounting to more than 10%, showing a discrepancy beyond statistical errors. .
Alvarez-Madrigal M.
Faus-Golfe Angeles
Gallegos-Cruz A.
Perez-Peraza Jorge
Sanchez-Hertz A.
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