Journal of Medical Physics (Jan 2014)

Monte Carlo-based revised values of dose rate constants at discrete photon energies

  • T Palani Selvam,
  • Vandana Shrivastava,
  • Ghanashyam Chourasiya,
  • D. Appala Raju Babu

DOI
https://doi.org/10.4103/0971-6203.125473
Journal volume & issue
Vol. 39, no. 1
pp. 4 – 9

Abstract

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Absorbed dose rate to water at 0.2 cm and 1 cm due to a point isotropic photon source as a function of photon energy is calculated using the EDKnrc user-code of the EGSnrc Monte Carlo system. This code system utilized widely used XCOM photon cross-section dataset for the calculation of absorbed dose to water. Using the above dose rates, dose rate constants are calculated. Air-kerma strength S k needed for deriving dose rate constant is based on the mass-energy absorption coefficient compilations of Hubbell and Seltzer published in the year 1995. A comparison of absorbed dose rates in water at the above distances to the published values reflects the differences in photon cross-section dataset in the low-energy region (difference is up to 2% in dose rate values at 1 cm in the energy range 30-50 keV and up to 4% at 0.2 cm at 30 keV). A maximum difference of about 8% is observed in the dose rate value at 0.2 cm at 1.75 MeV when compared to the published value. S k calculations based on the compilation of Hubbell and Seltzer show a difference of up to 2.5% in the low-energy region (20-50 keV) when compared to the published values. The deviations observed in the values of dose rate and S k affect the values of dose rate constants up to 3%.

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