Deduction of the air omega value in a therapeutic proton beam

Abstract

Utilization of air-filled ionization chambers with ⁶⁰Co-based reference calibrations in proton dosimetry requires application of water to air stopping power ratios and the mean energy required to produce an ion pair (W or omega ). Accepted uncertainties in current omega values for protons leads to a dosimetric uncertainty of 4 per cent when ionization chambers are employed to measure absorbed dose. For this reason, proton dosimetry protocols recommend the use of calorimetry as the absorbed dose standard. The authors used calorimetry in conjunction with an ionization chamber with ⁶⁰Co reference calibrations to deduce the proton omega value in the entrance region of a 250 MeV proton beam: 34.2+or-0.5 eV. Application of this omega value, with its 1.5 per cent uncertainty, allows determination of dose in therapeutic proton beams, with uncertainties comparable to photon and electron values.