D. Kabat

TL;DR: It is concluded that the clinical 2-D TL system may be useful in clinical dosimetry of external radiotherapy beams and photon-emitting brachytherapy sources and verification of computer therapy planning system calculations of fields produced by multileaf collimators or stereotactic radiosurgery systems, performed as part of the quality assurance procedure in radiotherapy.

TL;DR: In this article , two types of plastic scintillators with dimensions 10 mm × 10mm × 10 mm×10 mm were fabricated using DLP 3D-printing at Hanyang University, South Korea.

TL;DR: Satisfactory agreement found between dose distributions measured as percent depth dose or transverse beam profiles at different depths and respective distributions calculated by the TPS, confirms that the 2-D TL dosimetry is a promising technique for quality assurance of radiotherapy beams where steep dose gradients may occur over small field areas.

TL;DR: A flexible framework with suitable regression models for estimating parameters of the model of primary electron beam in simulators of medical linear accelerators using real reference dose profiles measured in a water phantom achieves consistent estimates of electron beam parameters and in a very good agreement between the measured and simulated photon beam profiles.