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A GEANT4 based simulation framework for the large area muon telescope of the GRAPES-3 experiment
Date Issued
2023-03-01
Author(s)
Varsi, F.
Ahmad, S.
Chakraborty, M.
Chandra, A.
Dugad, S.
Goswami, U.
Gupta, S.
Hariharan, B.
Hayashi, Y.
Jagadeesan, P.
Jain, A.
Jain, P.
Kawakami, S.
Kojima, H.
Mahapatra, S.
Mishra, S.
Mohanty, P.
Moharana, R.
Muraki, Y.
Nayak, P.
Nonaka, T.
Oshima, A.
Pant, B.
Pattanaik, D.
Pradhan, A.
Pradhan, G.
Rameez, M.
Ramesh, K.
Reddy, L.
Saha, S.
Sahoo, R.
Scaria, R.
Shibata, S.
Zuberi, M.
DOI
10.1088/1748-0221/18/03/P03046
Abstract
The GRAPES-3 experiment located in Ooty, India, samples the electron and muon components in extensive air showers using an array of plastic scintillator detectors and a muon telescope (G3MT) consisting of proportional counters to study the composition of primary cosmic rays (PCRs) as well as γ-ray sources in the TeV-PeV energy range. The G3MT is designed with an appropriate mass absorber to shield the electromagnetic and hadronic components in the shower and to detect muons above 1 GeV×sec(θ) energy, incident from a zenith angle θ. We developed a simulation framework based on the GEANT4 toolkit to evaluate the response of shower particles such as muons, γ-rays, electrons and hadrons in the G3MT. We discuss the geometric modeling of the G3MT using GEANT4 starting with the proportional counter. We estimated the punch-through contribution of hadrons in the G3MT. We compare the simulated muon multiplicity distributions with the observed ones assuming PCR composition from a four population supernova remnant acceleration model namely H4a.