Title of article
Estimation of effective atomic numbers of some solutions for photon energy absorption in the energy region 0.2–1.5 MeV: An alternative method
Author/Authors
Murat Kurudirek، نويسنده , , Murat، نويسنده ,
Pages
5
From page
302
To page
306
Abstract
The effective atomic numbers (ZPEAeff), which are used to describe the composite materials in terms of equivalent elements, have been estimated in some solutions for photon energy absorption in the energy region 0.2–1.5 MeV. Since the mass energy absorption (μen/ρ) and mass attenuation coefficients (μ/ρ) remain more or less the same for any given material in the photon energy region 0.2–1.5 MeV where Compton scattering is the main dominant photon interaction process, semi-empirical relations including both μen/ρ and μ/ρ have been constituted as a function of energy. These parameters were then used to obtain ZPEAeff with the help of a Z-wise interpolation procedure. The results were compared with the experimental as well as other theoretical estimations wherever possible. Consequently, the present method is found to be readily applicable to the given solutions in order to estimate accurate values of ZPEAeff for which it is not possible to directly obtain experimentally using the conventional gamma spectrometry system.
Keywords
Photon energy absorption , Effective atomic number , Mass energy absorption coefficient , Mass attenuation coefficient
Journal title
Astroparticle Physics
Record number
2018567
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