Effect of Solar radiation induced and alpha particles on Nonlinear behavior of PM-355 film

Al-Salihi, Abdalrahman; Salim, Rusul D.; Alfahed, R. K. Fakher; Badran, Hussain A.

doi:10.1088/1757-899x/928/7/072056

Cited by 9 publications

(2 citation statements)

References 26 publications

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“…There are a few materials that are particularly noteworthy, such as ceramics [6], blocks made of concrete [7,8], materials for building that are cementations [9] materials that give nonlinear behaviour [10][11][12][13][14], shielding materials [15] and nuclear track detector [16,17]. These materials are found permanently in structures that are located in close proximity to radiation incidents.…”

Section: Introductionmentioning

confidence: 99%

Thermoluminescence studies of Himalayan salt Materials

Hussain,

Badran,

Abul-hial

et al. 2024

J. Basrah Res. (Sci.)

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The goal of this work was to evaluate the thermoluminescence features of Himalayan salt (HS) for the purpose of radiation dosimetry. As a result of its low cost, widespread availability in the market, and similarity to the tissues found in the human body. Irradiation of the samples was performed with a radiation source that utilised 137Cs. With a heating rate of 15 degrees Celsius per second and a final temperature of 320 degrees Celsius, the samples were subjected to TL analysis with the help of the Harshaw Model 2000B/C TLD Reader. In commercial salt samples, the glow curve (gwc) reveals the presence of a strong glow peak at temperatures ranging from 204 to 282 degrees Celsius. For the salt sample, the grain size (gz) is exactly proportional to the total light intensity (TL) of the glow curve shown in the graph. Not only that, but the findings also demonstrate that the TL intensity of the HS has a linear relationship with dosage throughout a wide range, spanning from 250 mGy to 20 Gy. The post- irradiated fading rate are investigated and shows the rate of thermal fading of HS, found to be equal 32% at storage time for 24 days. These results indicate that this material is very interesting for useful for TL-dosimetric applications.

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Section: Introductionmentioning

confidence: 99%

Thermoluminescence studies of Himalayan salt Materials

Hussain,

Badran,

Abul-hial

et al. 2024

J. Basrah Res. (Sci.)

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“…Physically, TL dosimeters are tiny. They are suitable for several medical applications (Akkurt, Gunoglu, & Arda, 2014;Al-Salihi, Salim, Alfahed, & Badran, 2020;Azorín Nieto, 2004). Environmental background radiation must be precisely assessed to identify exposures related to the emission of radioactivity from the nuclear site; the amount of environmental radiation must be evaluated to appropriately quantify population exposure.…”

Section: Introductionmentioning

confidence: 99%

Environmental Radiation Dosimetry for school buildings, hospitals and health centers in Babil Governorate-Iraq using TL-technique

الصالحي¹,

الهيل²,

بدران³

2023

Journal of Medical and Pharmaceutical Sciences

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The current research aims to evaluate the dose rate of gamma rays emitted from school buildings, hospitals and health centers in several locations in Babil Governorate using the TL method. To achieve the objectives of the research, measurements were taken at 49 school building sites and 29 hospital and health center sites using the thermal luminescence technique. The results of this study indicate that the inhabited areas within the environmental monitoring stations are places where the radiation is normal and the average dose rate in school buildings, hospitals and health centers to which humans are exposed is within the permissible limit.

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