Monte Carlo modeling of ion chamber performance using MCNP

Health Phys. 2012 Dec;103(6):780-6. doi: 10.1097/HP.0b013e31826021e7.

Abstract

Ion Chambers have a generally flat energy response with some deviations at very low (<100 keV) and very high (>2 MeV) energies. Some improvements in the low energy response can be achieved through use of high atomic number gases, such as argon and xenon, and higher chamber pressures. This work looks at the energy response of high pressure xenon-filled ion chambers using the MCNP Monte Carlo package to develop geometric models of a commercially available high pressure ion chamber (HPIC). The use of the F6 tally as an estimator of the energy deposited in a region of interest per unit mass, and the underlying assumptions associated with its use are described. The effect of gas composition, chamber gas pressure, chamber wall thickness, and chamber holder wall thicknesses on energy response are investigated and reported. The predicted energy response curve for the HPIC was found to be similar to that reported by other investigators. These investigations indicate that improvements to flatten the overall energy response of the HPIC down to 70 keV could be achieved through use of 3 mm-thick stainless steel walls for the ion chamber.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Argon
  • Monte Carlo Method*
  • Photons
  • Pressure
  • Radiometry / instrumentation
  • Radiometry / methods*
  • Temperature
  • Xenon

Substances

  • Xenon
  • Argon