Your search keyword '"Photon energy distribution"' showing total 3 results

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

Author

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, and AAH-1837-2021

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)

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.

Published

2013

2. Monte Carlo analyses of multiple backscattering of gamma rays

Author

O. Gurler, E.N. Ozmutlu, U. Akar Tarim, S. Yalcin, Uludağ Üniversitesi/Fen-Edebiyat Fakültesi/Fizik Anabilim Dalı., Tarım, Urkiye Akar, Özmutlu, Emin N., Gürler, Orhan, AAH-4270-2021, and AAH-1837-2021

Subjects

Slabs, Photon, Nuclear science & technology, Detector response function, Health, Toxicology and Mutagenesis, Backscattering peak, Monte Carlo method, Article, Radiation absorption, Analytical Chemistry, Nuclear physics, Dosimetry, Radiology, Nuclear Medicine and imaging, Spectroscopy, Physics, Photons, Compton Scattering, Scatter, Computer Assisted Tomography, Detector, Public Health, Environmental and Occupational Health, Gamma ray, Compton scattering, Photon energy distribution, Water, Chemistry, analytical, Chemistry, inorganic & nuclear, Pollution, Radiation shield, Chemistry, Nuclear Energy and Engineering, Compton effect, Gamma radiation, Monte carlo code, Energy (signal processing), Radiation detector

Abstract

We have written a Monte Carlo code to simulate the experimental results of a previously reported study. We were able to analyse the energy distributions of photons that reached the detector system after suffering several successive Compton scatterings in the target. We have also investigated how the number of multiply backscattered events depends on the target thickness and the energy of the primary photons.

Published

2012

3. The effect of the housing material on the NaI(Tl) detector response function

Author

O. Gurler, U. Akar Tarim, E.N. Ozmutlu, S. Yalcin, Uludağ Üniversitesi/Fen Edebiyat Fakültesi/Fizik Bölümü., Tarım, Urkiye Akar, Özmutlu, Emin N., Gürler, Orhan, AAH-4270-2021, and AAH-1837-2021

Subjects

Photon, Nuclear science & technology, Detector response function, Physics::Instrumentation and Detectors, Isotope analysis, Health, Toxicology and Mutagenesis, Monte Carlo method, Article, Spectral line, Analytical Chemistry, Cesium 137, Optics, Gamma Spectrometry, Radiation Detectors, Thallium-Doped Sodium Iodide, Radiology, Nuclear Medicine and imaging, Backscatter peak, Radiation energy, Spectroscopy, Physics, business.industry, Detector, Public Health, Environmental and Occupational Health, Gamma ray, Compton scattering, Photon energy distribution, Chemistry, analytical, Function (mathematics), Spectra, Chemistry, inorganic & nuclear, Monte carlo method, Pollution, Computational physics, Cobalt 60, Chemistry, Sodium iodide, Radiological parameters, Nuclear Energy and Engineering, Compton effect, Gamma radiation, Radiation detection, Radiation dose distribution, business, Controlled study, Materials testing, Radiation detector

Abstract

In this study, a Monte Carlo program has been developed to simulate the response function of the NaI(Tl) detector with all features for Co-60 and Cs-137 and to investigate the effects of detector housing material on response function. The pulse height spectra in a 2aEuro(3) x 2aEuro(3) NaI(Tl) detector due to these gamma ray sources have been measured. Comparison of the experimentally obtained and simulated spectra shows that there is good agreement between both spectra. Energy distributions of gamma photons that generate the backscattering peak in the response function were obtained and the contribution of single, double and multiple Compton scattering events to these distributions was investigated.

Published

2012