Particles (Dec 2023)

First Results of Studying EAS Cores Using a High-Mountain Ionization Calorimeter

  • Turlan Sadykov,
  • Rauf Mukhamedshin,
  • Vladimir Galkin,
  • Alia Argynova,
  • Aidana Almenova,
  • Korlan Argynova,
  • Khanshaiym Makhmet,
  • Olga Novolodskaya,
  • Tunyk Idrissova,
  • Valery Zhukov,
  • Vyacheslav Piscal,
  • Zhakypbek Sadykov

DOI
https://doi.org/10.3390/particles7010003
Journal volume & issue
Vol. 7, no. 1
pp. 40 – 51

Abstract

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In high-altitude experiments to study the central cores of EAS at E0 ≳ 1016 eV (√s ≳ 5 TeV) using X-ray emulsion chambers and ionization calorimeters, phenomena such as the coplanarity of the arrival of the most energetic particles in super families of γ-rays and hadrons and a so-called Tien Shan effect (too slow absorption of cascades initiated by high-energy hadrons in the calorimeter) were observed. These effects could not be reproduced within the framework of theoretical models of the 80s and 90s. The coplanarity is explained via a process of coplanar generation of the most energetic secondary particles in interactions of super high-energy hadrons with nuclei of air atoms. Perhaps the Tien Shan effect could be explained using a high cross section for the generation of fragmentation-region charmed hadrons. To study these phenomena, a new set of detectors has been developed, including the world’s highest high-mountain ionization calorimeter, “Hadron-55”. This paper presents the initial experimental results.

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