Minimum phantom size for megavoltage photon beam reference dosimetry

Abstract

AbstractBackgroundWater phantoms are required to perform reference dosimetry and beam quality measurements but there are no published studies about the size requirements for such phantoms.PurposeTo investigate, using Monte Carlo techniques, the size requirements for water phantoms used in reference dosimetry and/or to measure the beam quality specifiers and .MethodsThe EGSnrc application DOSXYZnrc is used to calculate , the dose per incident fluence at 10 cm depth in a water phantom irradiated by incident   beams of   or 6 MV photons. The water phantom dimensions are varied from to and occasionally smaller. The and values are also calculated with care being taken to distinguish results when using Method A (changing depth of water in phantom) and Method B (moving entire phantom). Typical statistical uncertainties are 0.03%.ResultsPhantom dimensions have only minor effects for phantoms larger than . A table of corrections to the dose at 10 cm depth in   beams of   or 6 MV photons are provided and range from no correction to 0.75% for a  beam incident on a phantom. There can be distinct differences in the values measured using Method A or Method B, especially for smaller phantoms. It is explicitly demonstrated that, within 0.15%, values for a phantom measured using Method A or B are independent of source detector distance between 40 and 200 cm.ConclusionsThe phantom sizes recommended in the TG‐51 and IAEA TRS‐398 reference dosimetry protocols are adequate for accurate reference dosimetry and in some cases are even conservative. Correction factors are necessary for accurate measurement of the dose at 10 cm depth in smaller phantoms and these factors are provided. Very accurate beam quality specifiers are not required for reference dosimetry itself, but for specifying beam stability and characteristics it is important to specify phantom sizes and also the method used for  measurements.