Journal
APPLIED RADIATION AND ISOTOPES
Volume 174, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.apradiso.2021.109757
Keywords
Thermoluminescence; Kinetic parameters; Activation energy; Three-point analysis method
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Funding
- Sunway University (Malaysia) Research Grant [GRTIN-RSF-SHMS-CBP-03-2020]
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This study analyzed the thermoluminescence (TL) glow curves of the polymer pencil lead graphite (PPLG) to determine the physical parameters of defects and the lifetime of TL process. Different methods were used to fit TL glow peaks of PPLG samples with varying diameters, and the results were compared to discuss implications about possible deconvolution of glow curves.
This study analysed thermoluminescence (TL) glow curves of the polymer pencil lead graphite (PPLG) due to its potential applications in radiation dosimetry. The TL glow curves provide information on the physical parameters of the defects participating in luminescence process. The glow curves for different diameters PPLG samples were obtained with varying temperature from 50 to 300 degrees C, at a fixed heating rate of 10 degrees Cs-1. A number of methods (initial rise, peak shape and curve fitting) were used to fit the TL glow peaks of the PPLG samples obtained under photon dose of 200 Gy. From the fitted TL signals, the trap parameters such as the order of kinetics, the activation energy, the frequency factor, etc. for the individual peaks were numerically determined. The lifetimes of TL process were calculated assuming the first-order kinetics. The results are compared among the different methods adopted in this study. Implications about the possible results in glow curve deconvolution are discussed.
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