S B Kaginelli scite author profile

S B Kaginelli

2Publications

6Citation Statements Received

42Citation Statements Given

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Gulbarga University

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Effective atomic numbers and electron density of dosimetric material

et al. 2009

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A novel method for determination of mass attenuation coefficient of x-rays employing NaI (Tl) detector system and radioactive sources is described.in this paper. A rigid geometry arrangement and gating of the spectrometer at FWHM position and selection of absorber foils are all done following detailed investigation, to minimize the effect of small angle scattering and multiple scattering on the mass attenuation coefficient, μ/ρ, value. Firstly, for standardization purposes the mass attenuation coefficients of elemental foils such as Aluminum, Copper, Molybdenum, Tantalum and Lead are measured and then, this method is utilized for dosimetric interested material (sulfates). The experimental mass attenuation coefficient values are compared with the theoretical values to find good agreement between the theory and experiment within one to two per cent. The effective atomic numbers of the biological substitute material are calculated by sum rule and from the graph. The electron density of dosimetric material is calculated using the effective atomic number. The study has discussed in detail the attenuation coefficient, effective atomic number and electron density of dosimetric material/biological substitutes.

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Mass attenuation coefficient of chromium and manganese compounds around absorption edge

Sharanabasappa

Kaginelli

Керур

et al. 2009

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The total mass attenuation coefficient for Potassium dichromate, Potassium chromate and Manganese acetate compounds are measured at different photon energies 5.895, 6.404, 6.490, 7.058, 8.041 and 14.390 keV using Fe-55, Co-57 and 241 Am source with Copper target, radioactive sources. The photon intensity is analyzed using a high resolution HPGe detector system coupled to MCA under good geometrical arrangement. The obtained values of mass attenuation coefficient values are compared with theoretical values. This study suggests that measured mass attenuation coefficient values at and near absorption edges differ from the theoretical value by about 5-28 %. 76 Sharanabasappa et al. / Mass attenuation coefficient of chromium and manganese compoundsWhere ω i is the proportion by weight and (µ/ρ) i is the mass attenuation coefficient of the i th constituent element of the compound. For a chemical compound, ω i can be written as,

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S B Kaginelli

Effective atomic numbers and electron density of dosimetric material

Mass attenuation coefficient of chromium and manganese compounds around absorption edge

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