LHC data and cosmic ray coplanarity at superhigh energies

Rauf Mukhamedshin (Institute for Nuclear Research; Russian Academy of; Sciences)

arXiv:1611.04117·hep-ph·August 29, 2018

LHC data and cosmic ray coplanarity at superhigh energies

Rauf Mukhamedshin (Institute for Nuclear Research, Russian Academy of, Sciences)

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TL;DR

The paper introduces FANSY 2.0, a phenomenological model that simulates hadron interactions including coplanar particle generation, successfully reproducing LHC data and addressing cosmic ray coplanarity at superhigh energies.

Contribution

FANSY 2.0 is a new model that combines traditional QGSM particle generation with coplanar particle production, enhancing simulation accuracy for cosmic ray and collider data.

Findings

01

FANSY 2.0 reproduces LHC experimental data effectively.

02

The model addresses cosmic ray coplanarity phenomena.

03

A testing experiment for coplanarity is proposed.

Abstract

A new phenomenological model FANSY 2.0 is designed, which makes it possible to simulate hadron interactions via traditional QGSM-type particle generation as well as coplanar generation of most energetic particles, observed in cosmic ray experiments. FANSY 2.0 reproduces a lot of LHC (ALICE, ATLAS, CMS, TOTEM, LHCf) data. Results of model simulations are compared with LHC data. Problems of coplanarity are considered and a testing experiment is proposed.

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