Monte Carlo modelling of single and multiple Compton scattering profiles in a concrete material

Authors :: Ozcan Gundogdu
O. Gurler
J.M. Sharaf
D.A. Bradley
E.N. Ozmutlu
S. Yalcin
U. Akar Tarim
Uludağ Üniversitesi/Fen-Edebiyat Fakültesi/Fizik Bölümü.
Tarım, Urkiye Akar
Özmutlu, Emin N.
Gürler, Orhan
AAH-1837-2021
Source :: Radiation Physics and Chemistry. 85:12-17
Publication Year :: 2013
Publisher :: Elsevier BV, 2013.
Abstract: A Monte Carlo simulation study has been conducted of 60Co photons Compton scattered in concrete, illustrating the degraded energy spectra of gamma-ray radiation. Results are produced representing a NaI(Tl) detector model. We were able to analyse energy distributions of photons that reach the detector system after suffering several successive Compton scatterings in the target. The predicted decrease in intensity of single- and multiple-scattering peaks with increase in thickness of the target medium are in good agreement with experimental observations and findings reported by others.

Subjects :: Photon
Nuclear science & technology
Detector response function
Energy distributions
Detector response
Monte Carlo method
Chemical composition
Dimensions
Transmitted photon spectra
Spectral line
Shielding
Concretes
Physics
Chemistry, physical
Radiation
Compton Scattering
Scatter
Computer Assisted Tomography
Physics, atomic, molecular & chemical
Detector
Detectors
Monte Carlo methods
Calculation
Cobalt 60
Chemistry
Compton effect
Electromagnetic shielding
Concrete materials
Atomic physics
Compton scattering
Gamma-rays
Thickness
Intensity
Material state
Astrophysics::High Energy Astrophysical Phenomena
Geometry
Article
Experimental observation
Photons
Electric power distribution
Monte Carlo modelling
Gamma rays
Soil medium
Photon energy distribution
Multiple Compton scattering
Monte- carlo simulations
Computational physics
Gamma radiation
Comparative study
Photon energy
Prediction
Controlled study
Intensity (heat transfer)

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