The aim of this study was to evaluate properties of normoxic polymer gel 2-Hydroxyethyl methacrylate monomer (HEMAG)
as a point dosimeter by using optical properties evaluation techniques. HEMAG were prepared from seven different
radiation dose within five different depths of HEMAG dosimeters. These HEMAG dosimeters were irradiated by linear
accelerator with 6 MV photon beams. The absorption spectra were measured by using a UV-visible spectrophotometer in
the wavelength range from 300 to 800 nm. Then, the data was analysed to determine the optical energy band gap (Eg
)
and Urbach’s energy (∆E). The result showed that Eg
and ∆E were dependent on radiation dose and percentage of depth
dose (PDD). In additional, Eg
with indirect transition of HEMAG decreased as radiation dose increased and increased
with traversing of depth. ∆E of HEMAG increased as the dose increased and decreased with traversing depth of monomer.
There was a shift in the Eg
values towards lower energy as the dose increased and led to a shift of the ∆E value towards
the higher energy with increasing dose. This observation supported the increase of structured disorder of the polymer
with increasing radiation dose, which resulted in the lower energy transitions that was feasible and reduced the values
of Eg
. In conclusion, HEMAG has a potential to be used as a dosimeter at low radiation dose in the clinical radiotherapy