Abstract:
The 60Co sources are widely used for high dose rate (HDR) brachytherapy treatments. The
purpose of this study is to validate a Geant4 (version10.7.1) computational model of the BEBIG
60Co HDR source. The Geant4 Monte Carlo (MC) model has been used in compliance with the
standard TG-43 formalism. The air-kerma strength per unit source activity (Sk/A) was
estimated by keeping the source at the center of the xyz coordinate system. The air-kerma was
scored at 100 cm on the transverse axis in a spherical air volume of 1 cm radius. Histories of
1 × 109 were used with an uncertainty below 0.4%. A cubic water phantom with dimensions
1 m x 1 m x 1 m was modeled to obtain the dose rate distribution. The radial dose distribution
of the source was scored by placing the source at the center of a 40 cm radius water phantom.
Histories of 2 x 108 were simulated and the density and temperature were taken as
recommended in TG-43. The calculated Sk/A in this work was 2.944 x 10-7 UBq-1. Dose rate
constant (∧ ) was measured at 1cm on the transverse axis in water medium using 0.1 mm3 cubic
volume and the measured ∧ was 1.155 c Gyh-1 U-1. The values Sk/A and ∧ show good
agreement with the previous simulation studies and has the ability to produce dose profiles.
The dose rate per unit air kerma strength and the radial dose functions calculated in this study
are consistent with the previous study data.
