Abstract
Monte Carlo FLUKA and MCDS codes were used to study 1H, 4He and 12C ion beams with similar ranges in water phantom. The longitudinal and lateral dose profiles and the relative biological effectiveness (RBE) were investigated. Simulations were performed with particular emphasis in the vicinity of the Bragg peak (BP). The impact of individual nuclear fragments created by the primary beams was examined. Comparisons were made for the BP width, lateral dose profile width, and RBE value at different depths in the phantom. RBE values for the induction of DNA double-strand breaks were estimated, particularly in the vicinity of the BP. Results showed that 12C beam had the narrowest BP width, smallest lateral dose profile, and largest RBE value, followed by 4He and 1H beams. However, the differences between 4He and 12C were smaller than those between 1H and 4He. It also showed that the influence of nuclear fragments was significant for 12C beam, moderate for 4H beam, and minor for 1H beam. This influence was important for 12C at depths beyond the BP. Our results suggest that 4He beam is also a promising option for cancer therapy.
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