Assessment of radio-activation using spectroscopy in medical linear accelerators
Na Hye Kwon, Young Jae Jang, Suah Yu, Hanjin Lee, Dong Hyeok Choi, So Hyun Ahn, Kum Bae Kim, Jin Sung Kim, Dong Wook Kim, Sang Hyoun Choi, Mohamad Syazwan Mohd Sanusi, Mohamad Syazwan Mohd Sanusi, Mohamad Syazwan Mohd Sanusi, Mohamad Syazwan Mohd Sanusi

TL;DR
This study measures radioactive isotopes in medical linear accelerators after high-energy radiation use to assess worker safety during dismantling.
Contribution
The study identifies and quantifies long-lived radioisotopes in linacs, offering insights for safe disposal and worker protection.
Findings
Approximately 20 radionuclides, including 54Mn, 60Co, and 65Zn, were identified in linac heads.
Dose rates after 15 MV irradiation decreased from 628 nSv/h to 268 nSv/h within 1.5 hours.
Radiation levels and nuclide types depend on linac energy, usage period, and workload.
Abstract
In radiotherapy, when photon energy exceeding 8 MV is utilized, photoneutrons can activate the components within the gantry of the linear accelerator (linac). At the end of the linac’s lifecycle, radiation workers are tasked with its dismantling and disposal, potentially exposing them to unintentional radiation. This study aims to identify and measure the radioisotopes generated by this activation through spectroscopy, and to evaluate the effective dose rate. We selected nine medical linacs, considering various factors such as manufacturer (Siemens, Varian, and Elekta), model, energy, period of operation, and workload. We identified the radionuclides in the linac head by employing an in situ high-purity germanium (HPGe) detector. Spectroscopy and dose-rate measurements were conducted post-shutdown. We also measured the dose rates at the beam-exit window following irradiation with 10 MV…
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Taxonomy
TopicsRadiation Therapy and Dosimetry · Advanced Radiotherapy Techniques · Radiation Detection and Scintillator Technologies
