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W2989162211 abstract "Ionization chambers are often used in a phantom of material different from their walls, leading to a fluence perturbation. The main goal of this paper is to investigate the water equivalence of some polymers used for construction of ionization chamber’s wall and phantoms. To accomplish this goal, a Monte-Carlo model was used to calculate the depth dose as well as radiation-interaction parameters for mono-energetic photons (20–100 keV) and spectrum of 50–100 kVp X-rays. For mono-energetic photons, the maximum difference between the simulation results and theory was 2.4%. Plexiglass and RW3 had similar water equivalence and transmission properties as compared to water to within ±3.2%. Their depth doses were almost identical (to within 2.80%). The largest difference in depth dose compared to water found at 50 kVp. The dosimetric agreement was improved with increasing the X-ray energy, so that the maximum deviation was 6.3% for 100 kVp X-rays." @default.
W2989162211 created "2019-11-22" @default.
W2989162211 creator A5004532025 @default.
W2989162211 creator A5038562092 @default.
W2989162211 date "2020-02-01" @default.
W2989162211 modified "2023-09-30" @default.
W2989162211 title "Investigations of radiation properties, photon interaction parameters and water equivalence of some polymers used in the construction of ionization chambers for low energy X-ray beams" @default.
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W2989162211 doi "https://doi.org/10.1016/j.measurement.2019.107210" @default.
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