Your search keyword '"Aguilar PB"' showing total 1 results

1. Assessment of ion recombination correction and polarity effects for specific ionization chambers in flattening-filter-free photon beams.

Author

Martin-Martin G, Aguilar PB, Barbés B, and Guibelalde E

Subjects

Particle Accelerators, Photons, Radiometry instrumentation

Abstract

Purpose: To investigate ion recombination correction and polarity effects in four ion chamber models in flattening-filter-free (FFF) beams to (1) evaluate their suitability for reference dosimetry; (2) assess the accuracy of the two-voltage technique (TVA) against the Bruggmoser formalism; and (3) examine the influence of the accelerator type on the recombination correction., Methods: Jaffé plots were created for a variety of microchambers, small-volume and Farmer-type chambers to obtain k S , the recombination correction factor, using two different types of accelerators. These values were plotted against dose-per-pulse and Jaffé plots for opposite polarities were created to determine which chambers meet the AAPM TG-51 addendum recombination and polarity specifications., Results: Nearly all small-volume chambers exhibited reference-class behavior with respect to ion recombination and polarity effects. The microchambers exhibited anomalous recombination and polarity effects, precluding their use for reference dosimetry in FFF beams. For the reference-class chambers, agreement between TVA-determined k S values and Jaffé and Bruggmoser formalisms-determined k S values was within 0.1%. No significant differences were found between the k S values obtained with the two different accelerators used in this work., Conclusions: This study stresses the need to characterize ion recombination correction and polarity effects for small-volume chambers and microchambers on an individual chamber basis and with the more rigorous criteria of the AAPM TG-51 addendum. Furthermore, the study demonstrated the suitability of the TVA method for chambers that exhibit reference-class behavior in FFF beams. Finally, this work has shown that the recombination correction does not depend on the type of accelerator but on its dose-per-pulse., (Copyright © 2019 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published

2019