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Bazı Metal Oksitlerin Gama Absorpsiyon Özelliklerinin GEANT4-GATE Simülasyon ile Teorik İncelenmesi

Year 2024, Volume: 28 Issue: 3, 543 - 550, 23.12.2024
https://doi.org/10.19113/sdufenbed.1549497

Abstract

Bu çalışmada bazı oksit materyallerin gama radyasyon zırhlama özellikleri incelenmiştir. Bu amaçla; MoO2, La2O3, PbO metal oksitleri ve bunların karışımlarının oluşturduğu kompozitlerin gama radyasyonu zayıflatma özelliklerine, 50 keV, 80 keV, 120 keV, 662 keV, 1173 keV ve 1332 keV enerjilerde bakılmıştır. Hesaplamalar Geant4 tabanlı GATE simülasyon ile yapılarak XCOM programı ile karşılaştırılmıştır. Teorik olarak hesaplanan kütle zayıflatma katsayısından yararlanılarak (MAC), lineer soğurma katsayısı (LAC), yarıdeğer kalınlık (HVL), ortalama serbest yol (MFP) parametreleri bulunmuştur. Çalışma sonucunda özellikle, Mo(80)LaPb karışımında yüksek MoO2 içeriğiyle en iyi gama kalkanlama özelliği gösterdiği görülmüştür.

References

  • [1] Eskalen, H., Kavun , Y., Kerli S., Eken, S. 2020. An investigation of radiation shielding properties of boron-doped ZnO thin films. Optik Mater (Amst) 105 109871.
  • [2] Issa S., AMA, M., Hanafy , TA., Dong, M., Xue, X. 2019. Comparison study of photon attenuation characteristics of Polyvinyl alcohol (PVA) doped with Pb (NO3)2 by MCNP5 code, XCOM, and experimental results. Progress in Nuclear Energy 111.15–23.
  • [3] Zuguchi, M., Chida, K., Taura, M., Inaba, Y. 2008. Usefulness of non-lead aprons in radiation protection for physicians performing interventional procedures, Radiation Protection Dosimetry 131.531-534.
  • [4] Issa, S., Hamdalla, TA., Darwish , AAA. 2017. Effect of ErCl3 in gamma and neutron parameters for different concentrations of ErCl3-SiO2 (EDFA) for signal protection from nuclear radiation. Journal Alloys Compound 698 234–40.
  • [5] Abouhaswa , A. S., Perişanoğlu, U., Tekin , H. O., Kavaz, E., Henaish, A. M. A. 2020. Nuclear shielding properties of B2O3–Pb3O4–ZnO glasses: Multiple impacts of Er2O3 additive. Ceramic International 46 27849–59.
  • [6] Feller, S.A., Dell , W. J., Bray P. J. 1982. 10B NMR studies of lithium borate glasses. Journal of Non-Crystalline Solids 51 21–30.
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  • [8] Mkhaiber, A. F., Dheyaa, A. 2018. Experimental study of some shielding parameters for composite shields. In Journal of Physics: Conference Series (Vol. 1003, No. 1, p. 012109). IOP Publishing. [9] Demir, F. 2009. Determination of radiation absorbance of heavy concretes with boron and barite aggregates for neutron particles, x, and ɣ rays. Atatürk University, Institute of Science, PhD Thesis, Erzurum.
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  • [12] Verwey, J. W. M., Imbusch, G. F., Blasse, G. 1989. Laser excited spectroscopy of Gd3+ ions in crystalline and glass borate hosts with comparable composition. Journal Physics Chemistry Solids 50. 813–820. [13] Dong, H. O. 2017. Shielding properties of 80TeO2-5TiO2-(15-x) WO3-xAnOm glasses using WinXCom and MCNP5 code. Radiation Physics and Chemistry, 141 172-178.
  • [14] Mcalister, D. R. 2012. Gamma-ray attenuation properties of common shielding materials. University Lane Lisle.
  • [15] Nergiz, Y. Y. 2019. Nergiz. Gamma-ray Shielding Properties of Lithium Borate Glass Doped with Colemanit Mineral BEU Science Journal .8 (3) 762-771.
  • [16] Erkil, İ., Altınsoy , N., Karaaslan, İ. S. ¸ Bora A. 2016. Determination of Photon Mass Attenuation Coefficient for Some Phantom Materials using GATE Code and Comparison with Experimental and XCOM Data. International Journal of Nuclear and Radiation Science and Technology, 1 (2) 11-13.
  • [17] Özyurt, O., Altınsoy , N., Ş., Karaaslan, İ., Bora, A., Büyük, B., Eril, İ. 2018. Calculation of gamma-ray attenuation coefficient of some granite samples using a Monte Carlo simulation code, Radiation Physics and Chemistry 144. 271-275.
  • [18] Aral, İ. 2019. Investigation of Nuclear Shielding Capabilities of Alumina and Zirconia Based Ceramics with MCNP-X Code. Ağrı İbrahim Çeçen University, Master Thesis, Ağrı.
  • [19] COŞKUN, A., YİĞİTOĞLU, İ., TOPAKLI, H., & CETİN, B. (2023). Determination of the Radiation Shielding Performance of MoO2 Addition On PbO by Monte Carlo Simulation. In International Conference on Pioneer and Innovative Studies (Vol. 1, pp. 223-227).
  • [20] Tekin, H. O., Abouhaswa, A. S., Kilicoglu, O., Issa, S. A., Akkurt, I., & Rammah, Y. S. (2020). Fabrication, physical characteristic, and gamma-photon attenuation parameters of newly developed molybdenum reinforced bismuth borate glasses. Physica Scripta, 95(11), 115703.
  • [21] Alzahrani, J. S., Hessien, M., Alrowaili, Z. A., Kebaili, I., Olarinoye, I. O., Arslan, H., & Al-Buriahi, M. S. (2022). Fabrication and characterization of La2O3–Fe2O3–Bi2O3 nanopowders: Effects of La2O3 addition on structure, optical, and radiation-absorption properties. Ceramics International, 48(16), 22943-22952.

Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation

Year 2024, Volume: 28 Issue: 3, 543 - 550, 23.12.2024
https://doi.org/10.19113/sdufenbed.1549497

Abstract

This study investigated some oxide material's gamma radiation shielding properties. For this purpose, gamma radiation attenuation properties of composites formed by metal oxides MoO2, La2O3, PbO, and their mixtures were examined at 50 keV, 80 keV, 120 keV, 662 keV, 1173 keV, and 1332 keV energies. Calculations were made using the Geant4-based GATE simulation and compared with the XCOM program. Using the theoretically calculated mass attenuation coefficient (MAC), linear attenuation coefficient (LAC), half-value thickness (HVL), and mean free path (MFP) parameters were found. As a result of the study, it was seen that especially the Mo(80)LaPb mixture showed the best gamma shielding property with high MoO2 content.

References

  • [1] Eskalen, H., Kavun , Y., Kerli S., Eken, S. 2020. An investigation of radiation shielding properties of boron-doped ZnO thin films. Optik Mater (Amst) 105 109871.
  • [2] Issa S., AMA, M., Hanafy , TA., Dong, M., Xue, X. 2019. Comparison study of photon attenuation characteristics of Polyvinyl alcohol (PVA) doped with Pb (NO3)2 by MCNP5 code, XCOM, and experimental results. Progress in Nuclear Energy 111.15–23.
  • [3] Zuguchi, M., Chida, K., Taura, M., Inaba, Y. 2008. Usefulness of non-lead aprons in radiation protection for physicians performing interventional procedures, Radiation Protection Dosimetry 131.531-534.
  • [4] Issa, S., Hamdalla, TA., Darwish , AAA. 2017. Effect of ErCl3 in gamma and neutron parameters for different concentrations of ErCl3-SiO2 (EDFA) for signal protection from nuclear radiation. Journal Alloys Compound 698 234–40.
  • [5] Abouhaswa , A. S., Perişanoğlu, U., Tekin , H. O., Kavaz, E., Henaish, A. M. A. 2020. Nuclear shielding properties of B2O3–Pb3O4–ZnO glasses: Multiple impacts of Er2O3 additive. Ceramic International 46 27849–59.
  • [6] Feller, S.A., Dell , W. J., Bray P. J. 1982. 10B NMR studies of lithium borate glasses. Journal of Non-Crystalline Solids 51 21–30.
  • [7] Kodama, M., Matsushita, T., Kojima, S. 1995. Velocity of sound and elastic properties of Li2Ob2O3 glasses. Japanese Journal of Applied Physics 34.2570–4.
  • [8] Mkhaiber, A. F., Dheyaa, A. 2018. Experimental study of some shielding parameters for composite shields. In Journal of Physics: Conference Series (Vol. 1003, No. 1, p. 012109). IOP Publishing. [9] Demir, F. 2009. Determination of radiation absorbance of heavy concretes with boron and barite aggregates for neutron particles, x, and ɣ rays. Atatürk University, Institute of Science, PhD Thesis, Erzurum.
  • [10] Chakraborty, I. N., Shelby, J. E., Condrate, R. A. 1984. Properties and structure of lanthanum borate glasses. Journal American Ceramic Society 67. 782–785.
  • [11] Chakraborty, I. N., Day, D. E. 1985. Effect of R3+ ions on the structure and properties of lanthanum borate glasses. Journal American Ceramic Society 68 .641–645.
  • [12] Verwey, J. W. M., Imbusch, G. F., Blasse, G. 1989. Laser excited spectroscopy of Gd3+ ions in crystalline and glass borate hosts with comparable composition. Journal Physics Chemistry Solids 50. 813–820. [13] Dong, H. O. 2017. Shielding properties of 80TeO2-5TiO2-(15-x) WO3-xAnOm glasses using WinXCom and MCNP5 code. Radiation Physics and Chemistry, 141 172-178.
  • [14] Mcalister, D. R. 2012. Gamma-ray attenuation properties of common shielding materials. University Lane Lisle.
  • [15] Nergiz, Y. Y. 2019. Nergiz. Gamma-ray Shielding Properties of Lithium Borate Glass Doped with Colemanit Mineral BEU Science Journal .8 (3) 762-771.
  • [16] Erkil, İ., Altınsoy , N., Karaaslan, İ. S. ¸ Bora A. 2016. Determination of Photon Mass Attenuation Coefficient for Some Phantom Materials using GATE Code and Comparison with Experimental and XCOM Data. International Journal of Nuclear and Radiation Science and Technology, 1 (2) 11-13.
  • [17] Özyurt, O., Altınsoy , N., Ş., Karaaslan, İ., Bora, A., Büyük, B., Eril, İ. 2018. Calculation of gamma-ray attenuation coefficient of some granite samples using a Monte Carlo simulation code, Radiation Physics and Chemistry 144. 271-275.
  • [18] Aral, İ. 2019. Investigation of Nuclear Shielding Capabilities of Alumina and Zirconia Based Ceramics with MCNP-X Code. Ağrı İbrahim Çeçen University, Master Thesis, Ağrı.
  • [19] COŞKUN, A., YİĞİTOĞLU, İ., TOPAKLI, H., & CETİN, B. (2023). Determination of the Radiation Shielding Performance of MoO2 Addition On PbO by Monte Carlo Simulation. In International Conference on Pioneer and Innovative Studies (Vol. 1, pp. 223-227).
  • [20] Tekin, H. O., Abouhaswa, A. S., Kilicoglu, O., Issa, S. A., Akkurt, I., & Rammah, Y. S. (2020). Fabrication, physical characteristic, and gamma-photon attenuation parameters of newly developed molybdenum reinforced bismuth borate glasses. Physica Scripta, 95(11), 115703.
  • [21] Alzahrani, J. S., Hessien, M., Alrowaili, Z. A., Kebaili, I., Olarinoye, I. O., Arslan, H., & Al-Buriahi, M. S. (2022). Fabrication and characterization of La2O3–Fe2O3–Bi2O3 nanopowders: Effects of La2O3 addition on structure, optical, and radiation-absorption properties. Ceramics International, 48(16), 22943-22952.
There are 19 citations in total.

Details

Primary Language English
Subjects Nuclear Physics
Journal Section Articles
Authors

Arzu Coşkun 0000-0003-4771-1558

Hüseyin Topaklı 0000-0001-6849-2636

Publication Date December 23, 2024
Submission Date September 13, 2024
Acceptance Date November 3, 2024
Published in Issue Year 2024 Volume: 28 Issue: 3

Cite

APA Coşkun, A., & Topaklı, H. (2024). Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 28(3), 543-550. https://doi.org/10.19113/sdufenbed.1549497
AMA Coşkun A, Topaklı H. Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation. J. Nat. Appl. Sci. December 2024;28(3):543-550. doi:10.19113/sdufenbed.1549497
Chicago Coşkun, Arzu, and Hüseyin Topaklı. “Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides With GEANT4-GATE Simulation”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 28, no. 3 (December 2024): 543-50. https://doi.org/10.19113/sdufenbed.1549497.
EndNote Coşkun A, Topaklı H (December 1, 2024) Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 28 3 543–550.
IEEE A. Coşkun and H. Topaklı, “Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation”, J. Nat. Appl. Sci., vol. 28, no. 3, pp. 543–550, 2024, doi: 10.19113/sdufenbed.1549497.
ISNAD Coşkun, Arzu - Topaklı, Hüseyin. “Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides With GEANT4-GATE Simulation”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 28/3 (December 2024), 543-550. https://doi.org/10.19113/sdufenbed.1549497.
JAMA Coşkun A, Topaklı H. Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation. J. Nat. Appl. Sci. 2024;28:543–550.
MLA Coşkun, Arzu and Hüseyin Topaklı. “Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides With GEANT4-GATE Simulation”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 28, no. 3, 2024, pp. 543-50, doi:10.19113/sdufenbed.1549497.
Vancouver Coşkun A, Topaklı H. Theoretical Investigation of Gamma Attenuation Properties of Some Metal Oxides with GEANT4-GATE Simulation. J. Nat. Appl. Sci. 2024;28(3):543-50.

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