Experimental investigation of gamma-ray interaction parameters and buildup factors in lanthanide compounds: Insights into penetration depth

Experimental investigation of gamma-ray interaction parameters and buildup factors in lanthanide compounds: Insights into penetration depth

This experimental investigation focuses on the gamma-ray interaction parameters and the buildup factor in lanthanide compounds (CeO2, Ce(SO4)2, Dy2(SO4)3, C3O9Sm2, C3Gd2O9, Pr2O3). These compounds were exposed to weak radioactive gamma sources with energies of 356, 511, 662, 1173, 1275, and 1332 keV...

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Veröffentlicht in:Applied radiation and isotopes 2024-10, Vol.212, p.111466, Article 111466
Hauptverfasser: Manjunatha, Bennal, A.S., Hosamani, M.M., Hiremath, G.B., Singh, V.P., Badiger, N.M.
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Buildup factor
Lanthanide compounds
NaI(Tl) spectrometer
Radioactive source
γ-ray penetration depth
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container_issue
container_start_page 111466
container_title Applied radiation and isotopes
container_volume 212
creator Manjunatha
Bennal, A.S.
Hosamani, M.M.
Hiremath, G.B.
Singh, V.P.
Badiger, N.M.
description This experimental investigation focuses on the gamma-ray interaction parameters and the buildup factor in lanthanide compounds (CeO2, Ce(SO4)2, Dy2(SO4)3, C3O9Sm2, C3Gd2O9, Pr2O3). These compounds were exposed to weak radioactive gamma sources with energies of 356, 511, 662, 1173, 1275, and 1332 keV by adopting narrow and broad beam geometry experimental arrangements. The incident and transmitted radiation intensities were measured using a NaI (Tl) detector. Experimentally measured values of mass attenuation coefficient and effective atomic number of lanthanide compounds were found to be in precise agreement with theoretical values obtained from NIST XCOM and Direct-Zeff database respectively. Additionally, the experimentally determined buildup factor values were compared with energy absorption buildup factor (EABF) and exposure buildup factor (EBF) values obtained from Phy-X/PSD software, providing insights into the gamma-ray penetration depth in terms of mean free path (MFP). At 356 keV, the EABF analysis showed that most compounds had a penetration depth of around 8 mean free paths. In contrast, the EBF analysis indicated penetration depths exceeding 10 mean free paths for all compounds except Ce (SO4)2. This new approach holds immense potential for transformative advancements in medical diagnostics, therapy, and the development of innovative technologies in nuclear sciences. •The gamma-ray interaction parameters and buildup factor of lanthanide compounds were experimentally determined.•The comparison of experimental buildup factor values with EABF and EBF provides insight into gamma-ray penetration depth (mfp).•The EABF showed that most compounds had a penetration depth of around 8 mean free path except Ce (SO4)2 at 356 keV.•The EBF indicated penetration depths exceeding 10 mean free path for all compounds except Ce (SO4)2 at 356 keV.
doi_str_mv 10.1016/j.apradiso.2024.111466
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These compounds were exposed to weak radioactive gamma sources with energies of 356, 511, 662, 1173, 1275, and 1332 keV by adopting narrow and broad beam geometry experimental arrangements. The incident and transmitted radiation intensities were measured using a NaI (Tl) detector. Experimentally measured values of mass attenuation coefficient and effective atomic number of lanthanide compounds were found to be in precise agreement with theoretical values obtained from NIST XCOM and Direct-Zeff database respectively. Additionally, the experimentally determined buildup factor values were compared with energy absorption buildup factor (EABF) and exposure buildup factor (EBF) values obtained from Phy-X/PSD software, providing insights into the gamma-ray penetration depth in terms of mean free path (MFP). At 356 keV, the EABF analysis showed that most compounds had a penetration depth of around 8 mean free paths. 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These compounds were exposed to weak radioactive gamma sources with energies of 356, 511, 662, 1173, 1275, and 1332 keV by adopting narrow and broad beam geometry experimental arrangements. The incident and transmitted radiation intensities were measured using a NaI (Tl) detector. Experimentally measured values of mass attenuation coefficient and effective atomic number of lanthanide compounds were found to be in precise agreement with theoretical values obtained from NIST XCOM and Direct-Zeff database respectively. Additionally, the experimentally determined buildup factor values were compared with energy absorption buildup factor (EABF) and exposure buildup factor (EBF) values obtained from Phy-X/PSD software, providing insights into the gamma-ray penetration depth in terms of mean free path (MFP). At 356 keV, the EABF analysis showed that most compounds had a penetration depth of around 8 mean free paths. 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In contrast, the EBF analysis indicated penetration depths exceeding 10 mean free paths for all compounds except Ce (SO4)2. This new approach holds immense potential for transformative advancements in medical diagnostics, therapy, and the development of innovative technologies in nuclear sciences. •The gamma-ray interaction parameters and buildup factor of lanthanide compounds were experimentally determined.•The comparison of experimental buildup factor values with EABF and EBF provides insight into gamma-ray penetration depth (mfp).•The EABF showed that most compounds had a penetration depth of around 8 mean free path except Ce (SO4)2 at 356 keV.•The EBF indicated penetration depths exceeding 10 mean free path for all compounds except Ce (SO4)2 at 356 keV.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>39126755</pmid><doi>10.1016/j.apradiso.2024.111466</doi></addata></record>
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subjects Buildup factor
Lanthanide compounds
NaI(Tl) spectrometer
Radioactive source
γ-ray penetration depth
title Experimental investigation of gamma-ray interaction parameters and buildup factors in lanthanide compounds: Insights into penetration depth
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