首页|Adoption of ICRU report 90 recommendations in the Canadian Co-60 air-kerma primary standard
Adoption of ICRU report 90 recommendations in the Canadian Co-60 air-kerma primary standard
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NSTL
The Canadian air-kerma primary standard for Co-60 beams is updated according to ICRU report 90 (ICRU-90) recommendations. The effect of these recommendations and a more detailed chamber model on the primary standard is investigated. Dosimetric quantities and corrections required for the realization of air kerma arc calculated using the EGSnrc Monte Carlo (MC) simulation system. The validity of Spencer-Attix (SA) cavity theory as function of Delta, the secondary particle production threshold energy, is investigated to assess the accuracy of its current selection criterion. Although individual changes in some correction factors are statistically non-negligible, the overall effect amounts to only a 0.04% increase of the standard. The mean restricted mass electronic stopping power ratio graphite to air, (S) over bar (Delta,g,a) decreases from the previous value of 1.0010 to a value of 0.9949. If this value is used with the recommended W-air value of 33.97 eV, the effect on the standard is a reduction of 0.613%. When the recommended W-air(S) over bar (g,a) value of 33.72 eV is used instead, the change results in a 0.835% reduction in K-air. Using SA cavity theory to obtain K-air with a Delta. value of 20 keV, corresponding to the cavity's mean chord length, reproduces a direct MC calculation at the 0.03% level. Type B uncertainties due to uncertainty in the photon and electron cross sections for the largest corrections K-wall and K-comp are estimated to be 0.01% and 0.10%, respectively. No statistically significant effect on the standard is observed due to changes in the correction factors. Fano tests and comparison to single scattering calculations demonstrate EGSnrc's electron transport algorithm accuracy to be within 0.03% relative to its own cross sections. The latter also validates the criterion for selecting Delta based on the average chord length of the chamber's cavity. A 0.2% difference in the restricted stopping power ratio obtained in this work and the value resulting from ICRU-90 recommendations has the potential for affecting standards relying on the absolute value of W-air, thus further investigation is granted. The current update results in a 0.8% decrease of the Canadian Co-60 air-kerma primary standard with a reduced uncertainty of 0.2%. This change is in excellent agreement with the reported change to the BIPM Co-60 air-kerma standard.
NSTL
