Monte Carlo investigation of beam characteristics for HDR-BT Bebig Co0.A86

In recent years, the use of radioactive Co-60 in high-dose level brachytherapy (HDR-BT) has grown rapidly. This study aims to model the HDR-BT source, precisely the Bebig Co0.A86 type, and determine its spectrum characteristics. The simulation utilizes the GEANT4 Monte Carlo code to model radiation...

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Bibliographic Details
Main Authors: Qomariyah, Nurul, Haryanto, Freddy, Waris, Abdur, Wirawan, Rahadi
Format: Conference Proceeding
Language:English
Subjects:
Cobalt
Encapsulation
Energy distribution
Energy spectra
Monte Carlo simulation
Photoelectric effect
Photoelectricity
Photons
Radiation sources
Radiation therapy
Stainless steels
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Summary:In recent years, the use of radioactive Co-60 in high-dose level brachytherapy (HDR-BT) has grown rapidly. This study aims to model the HDR-BT source, precisely the Bebig Co0.A86 type, and determine its spectrum characteristics. The simulation utilizes the GEANT4 Monte Carlo code to model radiation sources and irradiation systems. The BEBIG Co0.A86 brachytherapy source was modeled by encapsulation source. The beam characteristics of the source were simulated in a spherical scoring region. The scoring region had a radius of 50 cm with water medium, as recommended by the TG-43U1 protocol, and different scoring region sizes were considered: 10 cm, 20 cm, 30 cm, and 40 cm. The physical interactions used in the simulation were performed using the penelope model with 108 generated photons (history). The characteristic parameters of the photon spectrum in the scoring region were analyzed using the root program. The GEANT4 Monte Carlo simulation revealed two photoelectric energies of cobalt at 1.173 MeV and 1.332 MeV and the Compton edge in the energy distribution spectrum of the Bebig Co0.A86 model. The discrepancy between the Compton edge simulation results with theoretical calculations is about 3.22%. The source encapsulation with stainless steel material and the addition of cables to the source model did not affect the energy spectrum distribution pattern of Co-60. Furthermore, the results show that the photoelectric energy significantly decreased with increasing scoring region size, while the Compton continuum area increased accordingly. Additionally, the GEANT4 Monte Carlo method illustrated the differences in the spectrum distribution of HDR-BT Co-60 with variations in scoring region size. The scoring region size of 10 cm shows that the photoelectric effect has an amplitude almost equal to the Compton edge and Compton Continuum.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0231301