Studying the Characteristics of Optical Modules in the Volume of the NEVOD Cherenkov Water Detector

“…The inclusion of a new coordinate-track detector TREK in the NEVOD experimental complex will allow to expand the range of investigated energies to the interval from 10 14 to 10 19 eV [25], which will cover the entire region in which an excess of cosmic ray muons is observed. To improve the accuracy of muon bundle energy deposit measurement, the extension and optimization of Cherenkov water detector structure will be done [26]. An increase in the accuracy in determining the multiplicity of bundles and their energy deposit will make it possible to understand the nature of the muon puzzle and give an answer about the inclusion of new physical processes in the interaction of primary cosmic rays of ultrahigh energies.…”

A MegaScience class experimental complex at the University

“…The inclusion of a new coordinate-track detector TREK in the NEVOD experimental complex will allow to expand the range of investigated energies to the interval from 10 14 to 10 19 eV [25], which will cover the entire region in which an excess of cosmic ray muons is observed. To improve the accuracy of muon bundle energy deposit measurement, the extension and optimization of Cherenkov water detector structure will be done [26]. An increase in the accuracy in determining the multiplicity of bundles and their energy deposit will make it possible to understand the nature of the muon puzzle and give an answer about the inclusion of new physical processes in the interaction of primary cosmic rays of ultrahigh energies.…”

A MegaScience class experimental complex at the University

Prospects for Solving the Muon Puzzle on the NEVOD-DECOR-TREK Complex