Research Article
Year 2021,
, 1 - 7, 30.06.2021
Abstract
References
- [1] H.M. Qadr, Calculation for gamma ray buildup factor for aluminium, graphite and lead, International Journal of Nuclear Energy Science and Technology 13(1) (2019) 61-69.
- [2] D. Maiti, J. Zhong, Z. Zhang, H. Zhou, S. Xion, Z. Dong, S. Kumar, Z. Liu, K. Yang, Polyoxomolybdate (POM) nanoclusters with radiosensitizing and scintillating properties for low dose X-ray inducible radiation-radiodynamic therapy, Nanoscale Horizons 5(1) (2020) 109-118.
- [3] A. Wojcik, M. Harms-Ringdahl, Radiation protection biology then and now, International journal of radiation biology 95(7) (2019) 841-850.
- [4] H. Qadr, Effect of Ion Irradiation on the Mechanical Properties of High and Low Copper, Atom Indonesia 46(1) (2020) 47-51.
- [5] H.M. Qadr, A molecular dynamics calculation to cascade damage processes, The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science 43(4) (2020) 13-16.
- [6] H.M. Qadr, Radiation damage and dpa in iron using mcnp5, European Journal of Materials Science and Engineering 5(3) (2020) 109-114.
- [7] M. Schütz, S. Procz, J. Fey, M. Fiederle, Element discrimination via spectroscopic X-ray imaging with a CdTe Medipix3RX detector, Journal of Instrumentation 15(01) (2020) P01006.
- [8] L. Young, K. Ueda, M. Gühr, P.H. Bucksbaum, M. Simon, S. Mukamel, N. Rohringer, K.C. Prince, C. Masciovecchio, M. Meyer, Roadmap of ultrafast x-ray atomic and molecular physics, Journal of Physics B: Atomic, Molecular and Optical Physics 51(3) (2018) 032003.
- [9] Y. Guo, Z. Yang, B. Hu, X. Wang, Z. Song, Q. Xu, B. Zhang, J. Chen, B. Yang, J. Yang, The continuous and discrete molecular orbital x-ray bands from Xe q+ (12≤ q≤ 29)+ Zn collisions, Scientific reports 6 (2016) 30644.
- [10] M. Yao, D. Wang, M. Zhao, Element analysis based on energy-dispersive X-ray fluorescence, Advances in Materials Science and Engineering 2015 (2015) 290593.
- [11] A.M. Hamad, H.M. Qadr, Gamma-Rays Spectroscopy by Using a Thallium Activated Sodium Iodide NaI (Ti), Eurasian Journal of Science and Engineering 4(1) (2018) 99-111.
- [12] H.M. Qadr, Calculation of gamma-ray attenuation parameters for aluminium, iron, zirconium and tungsten, Problems of Atomic Science and Technology. Series:Thermonuclear Fusion 43(2) (2020) 25-30.
- [13] L. Strüder, N. Meidinger, D. Stotter, J. Kemmer, P. Lechner, P. Leutenegger, H. Soltau, F. Eggert, M. Rohde, T. Schulein, High-resolution X-ray spectroscopy close to room temperature, Microscopy and Microanalysis 4(6) (1998) 622-631.
- [14] G.F. Knoll, Radiation detection and measurement, John Wiley & Sons, 2010.
- [15] F. Bartol, M. Bordessoule, G. Chaplier, M. Lemonnier, S. Megtert, The CAT pixel proportional gas counter detector, Journal de Physique III 6(3) (1996) 337-347.
- [16] I. Akkurt, K. Gunoglu, S. Arda, Detection efficiency of NaI (Tl) detector in 511–1332 keV energy range, Science and Technology of Nuclear Installations 2014 (2014) 186798.
- [17] Q. Mohammad, H. Maghdid, Alpha-particle stopping powers in air and argon, Journal of Pure and Applied Physics 5 (2017) 22-28.
- [18] H.M. Qadr, A.M. Hamad, Using of Stopping and Range of Ions in Matter Code to Study of Radiation Damage in Materials, RENSIT 12(4) (2020) 451-456.
- [19] H.M. Qadr, Comparison of Energy Resolution and Efficiency of NaI (TI) and HPGe Detector using Gamma-ray Spectroscopy, Journal of Physical Chemistry and Functional Materials 3(1) (2020) 24-27.
Year 2021,
, 1 - 7, 30.06.2021
Abstract
The purpose of this work is to investigate and quantify x-ray fluorescence, its production and its spectroscopy. Characteristic x-ray with different energies was obtained from six various elements using Am-241 source with 59.5 keV. It was found that x-ray energy and intensity increase with increasing atomic number of material. X-ray spectroscopy was studied for such elements in respect to their atomic number and intensity of Kα using proportional counter. Furthermore, x-ray fluorescence was produced from different thicknesses of copper foil using different energies. It was found that there is no substantial difference in x-ray fluorescence yield with higher thickness of the target.
References
- [1] H.M. Qadr, Calculation for gamma ray buildup factor for aluminium, graphite and lead, International Journal of Nuclear Energy Science and Technology 13(1) (2019) 61-69.
- [2] D. Maiti, J. Zhong, Z. Zhang, H. Zhou, S. Xion, Z. Dong, S. Kumar, Z. Liu, K. Yang, Polyoxomolybdate (POM) nanoclusters with radiosensitizing and scintillating properties for low dose X-ray inducible radiation-radiodynamic therapy, Nanoscale Horizons 5(1) (2020) 109-118.
- [3] A. Wojcik, M. Harms-Ringdahl, Radiation protection biology then and now, International journal of radiation biology 95(7) (2019) 841-850.
- [4] H. Qadr, Effect of Ion Irradiation on the Mechanical Properties of High and Low Copper, Atom Indonesia 46(1) (2020) 47-51.
- [5] H.M. Qadr, A molecular dynamics calculation to cascade damage processes, The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science 43(4) (2020) 13-16.
- [6] H.M. Qadr, Radiation damage and dpa in iron using mcnp5, European Journal of Materials Science and Engineering 5(3) (2020) 109-114.
- [7] M. Schütz, S. Procz, J. Fey, M. Fiederle, Element discrimination via spectroscopic X-ray imaging with a CdTe Medipix3RX detector, Journal of Instrumentation 15(01) (2020) P01006.
- [8] L. Young, K. Ueda, M. Gühr, P.H. Bucksbaum, M. Simon, S. Mukamel, N. Rohringer, K.C. Prince, C. Masciovecchio, M. Meyer, Roadmap of ultrafast x-ray atomic and molecular physics, Journal of Physics B: Atomic, Molecular and Optical Physics 51(3) (2018) 032003.
- [9] Y. Guo, Z. Yang, B. Hu, X. Wang, Z. Song, Q. Xu, B. Zhang, J. Chen, B. Yang, J. Yang, The continuous and discrete molecular orbital x-ray bands from Xe q+ (12≤ q≤ 29)+ Zn collisions, Scientific reports 6 (2016) 30644.
- [10] M. Yao, D. Wang, M. Zhao, Element analysis based on energy-dispersive X-ray fluorescence, Advances in Materials Science and Engineering 2015 (2015) 290593.
- [11] A.M. Hamad, H.M. Qadr, Gamma-Rays Spectroscopy by Using a Thallium Activated Sodium Iodide NaI (Ti), Eurasian Journal of Science and Engineering 4(1) (2018) 99-111.
- [12] H.M. Qadr, Calculation of gamma-ray attenuation parameters for aluminium, iron, zirconium and tungsten, Problems of Atomic Science and Technology. Series:Thermonuclear Fusion 43(2) (2020) 25-30.
- [13] L. Strüder, N. Meidinger, D. Stotter, J. Kemmer, P. Lechner, P. Leutenegger, H. Soltau, F. Eggert, M. Rohde, T. Schulein, High-resolution X-ray spectroscopy close to room temperature, Microscopy and Microanalysis 4(6) (1998) 622-631.
- [14] G.F. Knoll, Radiation detection and measurement, John Wiley & Sons, 2010.
- [15] F. Bartol, M. Bordessoule, G. Chaplier, M. Lemonnier, S. Megtert, The CAT pixel proportional gas counter detector, Journal de Physique III 6(3) (1996) 337-347.
- [16] I. Akkurt, K. Gunoglu, S. Arda, Detection efficiency of NaI (Tl) detector in 511–1332 keV energy range, Science and Technology of Nuclear Installations 2014 (2014) 186798.
- [17] Q. Mohammad, H. Maghdid, Alpha-particle stopping powers in air and argon, Journal of Pure and Applied Physics 5 (2017) 22-28.
- [18] H.M. Qadr, A.M. Hamad, Using of Stopping and Range of Ions in Matter Code to Study of Radiation Damage in Materials, RENSIT 12(4) (2020) 451-456.
- [19] H.M. Qadr, Comparison of Energy Resolution and Efficiency of NaI (TI) and HPGe Detector using Gamma-ray Spectroscopy, Journal of Physical Chemistry and Functional Materials 3(1) (2020) 24-27.
There are 19 citations in total.
Details
| Primary Language | English |
|---|---|
| Journal Section | Research Article |
| Authors | |
| Publication Date | June 30, 2021 |
| Submission Date | May 15, 2020 |
| Acceptance Date | February 2, 2021 |
| Published in Issue | Year 2021 |
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