The percentage depth dose at 10 cm in a 10 x 10-cm2 photon beam at an
SSD of 100 cm, %dd(10), is a better beam-quality specifier for radioth
erapy beams than the commonly used values of TPR10(20) or nominal acce
lerating potential. The presence of electron contamination affects the
measurement of %dd(10) but can be removed by the use of a 0.1-cm lead
filter, which reduces surface dose from contaminant electrons from th
e accelerator by more than 95% for radiotherapy beams with energies fr
om Co-60 to 50 MV. The filter performs best when it is placed immediat
ely below the head. An electron-contamination correction factor is int
roduced to correct for electron contamination from the filter and air.
It converts the %dd(10) which includes the electron contamination wit
h the filter in place [hereafter %dd(10)m], into %dd(10) for just the
photons in the filtered beam. The correction factor is a linear functi
on of %dd(10)m for all filtered beams with %dd(10)m>70%. A small corre
ction for the photon filtering effect converts the pure photon %dd(10)
for the filtered beam into that for the unfiltered beam, which can be
used to determine stopping-power ratio. Calculations show that the va
lues of water-to-air stopping power ratio in the unfiltered beam are r
elated to the values of %dd(10)m in the filtered beam by a cubic funct
ion. The uncertainty of stopping-power ratios in unfiltered beams for
the same value of the %dd(10)m is within 0.2% for all beams.