Abstract
Computed tomography (CT) diagnostic exams are responsible for the highest dose values to the patients. Therefore, the radiation doses in this procedure must be accurate. For the dosimetry of CT beams, the radiation detector is usually a pencil-type ionization chamber. This type of dosimeter presents a uniform response to the incident radiation beam from all angles, which makes it suitable for such equipment since the X-ray tube executes a circular movement around the table during irradiation. However, there is no primary standard system for this kind of radiation beam yet. In order to search for a CT primary standard, an extrapolation chamber built at the Calibration Laboratory (LCI) of the Instituto de Pesquisas Energéticas e Nucleares (IPEN) was tested. An extrapolation chamber is a parallel-plate ionization chamber that allows the variation of its sensitive air volume. This chamber was used previously for low-energy radiation beams and showed results within the international recommended limits. The aim of this work is to perform some characterization tests (saturation curve, polarity effect, ion collection efficiency and linearity of response) considering the chamber depth of 1.25 mm in the radiation qualities for computed tomography beams at the LCI. The results showed to be within the international recommended limits.
Highlights
The use of computed tomography (CT) has increased in diagnostic tests; due to technological advances of this equipment as the process of obtaining images became faster [1]
The extrapolation ionization chamber tested in this work was developed by Dias and Caldas [3]; it presents a collecting electrode of 30 mm in diameter, the entrance window was made of aluminized polyethylene terephthalate with density of 0.84 mg/cm2, and the guard ring and the collecting electrode were made of graphite
Are presented the results obtained of the saturation curve, polarity effect and ion collection efficiencies for the extrapolation chamber
Summary
The use of computed tomography (CT) has increased in diagnostic tests; due to technological advances of this equipment as the process of obtaining images became faster [1]. A pencil-type ionization chamber is used as radiation detector for computed tomography beams This dosimeter presents a uniform response to the incident radiation beam from all angles; the commercial chamber used to perform the quality control testing of the equipment has usually a 10 cm length of the sensitive volume [2]. For this kind of radiation beam there is no primary standard system yet. This chamber was already used for low-energy radiation beams too, and it showed results within the international recommended limits [4,5]
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