Monte Carlo simulation with CORSIKA code using QGSJET hadronic interaction model is applied on more than 5000 cosmic ray primaries to investigate dependence of maximum air shower development (Hmax) on mass and energy of primaries.
G. Rastgarzadeh, . (2019). Cosmic ray simulation and dependence of maximum air shower development (Hmax) on mass and energy of primaries temperature. Iranian Journal of Physics Research, 6(2), 87-94.
MLA
G. Rastgarzadeh, . "Cosmic ray simulation and dependence of maximum air shower development (Hmax) on mass and energy of primaries temperature", Iranian Journal of Physics Research, 6, 2, 2019, 87-94.
HARVARD
G. Rastgarzadeh . (2019). 'Cosmic ray simulation and dependence of maximum air shower development (Hmax) on mass and energy of primaries temperature', Iranian Journal of Physics Research, 6(2), pp. 87-94.
CHICAGO
G. Rastgarzadeh, "Cosmic ray simulation and dependence of maximum air shower development (Hmax) on mass and energy of primaries temperature," Iranian Journal of Physics Research, 6 2 (2019): 87-94,
VANCOUVER
G. Rastgarzadeh . Cosmic ray simulation and dependence of maximum air shower development (Hmax) on mass and energy of primaries temperature. Iranian Journal of Physics Research. 2019;6(2):87-94 (In Persian).
