Leading nucleon and the proton-nucleus inelasticity
J.Bellandi, J.R.Fleitas, J.Dias de Deus
TL;DR
This paper calculates the average proton-nucleus inelasticity by combining the Iterative Leading Particle Model, Glauber model, and Regge Mueller formalism to relate nucleon-nucleus and nucleon-proton interactions.
Contribution
It introduces a novel approach linking leading particle distributions in nucleon-nucleus and nucleon-proton collisions using established models.
Findings
Calculated average proton-nucleus inelasticity.
Established relation between nucleon-nucleus and nucleon-proton leading particle distributions.
Applied models to high-energy collision data.
Abstract
We present in this paper a calculation of the average proton-nucleus inelasticity. Using an Iterative Leading Particle Model and the Glauber model, we relate the leading particle distribution in nucleon-nucleus interactions with the respective one in nucleon- proton collisions. To describe the leading particle distribution in nucleon-proton collisions, we use the Regge Mueller formalism. Contribution to 26th ICRC - Salt Lake City, Utah. August, 1999. HE 1.1.14
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Taxonomy
TopicsGeophysics and Gravity Measurements · Pulsars and Gravitational Waves Research · High-Energy Particle Collisions Research