Publication: Analytical formulas for calculating photoelectric attenuation coefficients
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Authors
Gürler, Orhan
Kaynak, Gökay
Authors
Oktar, Cebrail Hasimi
Yalçın, Sezai
Advisor
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Taylor & Francis
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Abstract
Photoelectric absorption is an interaction in which an incoming gamma ray virtually transfers all of its energy to an atomic electron, usually the most tightly bound K-shell electron of an atom. This paper uses the Win XCOM computer code as a reference base. We found analytical photoelectric attenuation coefficients for researchers using the Monte Carlo simulation program for Z is an element of [1; 100] and E is an element of [10 keV; 3MeV]. We define a photoelectric effect operator and coefficient operators and a series for photoelectric absorption. We have calculated two polynomial coefficient operators for use with XCOM for photoelectric absorption. We determined 14 energies and atomic number limits for elements, and we find that they are accurate limits of photoelectric absorption for fitting with XCOM.
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Keywords
Nuclear science & technology, Physics, Photoelectric absorption, Photoelectric attenuation coefficient, Operator, Xcom, Mass attenuation, Cross-sections, Energy, Photons, Atoms, Gamma rays, Intelligent systems, Monte carlo methods, Analytical formulas, Atomic electron, Attenuation coefficient, K-shell electrons, Photoelectric absorption, Polynomial coefficients, Photoelectricity
Citation
Gürler, O. vd. (2012). "Analytical formulas for calculating photoelectric attenuation coefficients". Radiation Effects and Defects in Solids, 167(12), 895-902.