Determination of overall perturbation factors for plane-parallel ionization chambers in electron beams.

Abstract

Most dosimetry protocols recommend the use of plane-parallel chambers for dose determination in electron beams with energies below 10 MeV. The new IAEA TRS 381 (1997) protocol includes the overall perturbation factor p(Q) that consists of the in-scattering correction factor p(cav) (or P(repl)) and the wall correction factor p(wall) (or P(wall)). In this work, p(Q) for the commonly applied NACP, PTW/Roos and PTW/Markus plane-parallel chambers was determined experimentally. For the NACP plane-parallel chamber, p(Q) was obtained by comparison with a cylindrical Farmer chamber, while for the PTW/Roos and PTW/Markus chambers it was obtained by comparison with the NACP chamber. The values of p(Q) for these plane-parallel chambers were measured as a function of mean electron energies E(z) from 1.7 MeV to 11.5 MeV. It was found that for the NACP and PTW/Roos chambers, p(Q) is independent of energy down to E(z) =1.7 MeV, while for the PTW/Markus chamber it shows a systematic and exponential drop of about 2% with decreasing energy down to E(z) = 2.7 MeV. However, the decrease of p(Q) for E(z) =1.7 MeV was not exponential.