Calculated depth-dose distributions for H + and He + beams in liquid water

We have calculated the dose distribution delivered by proton and helium beams in liquid water as a function of the target-depth, for incident energies in the range 0.5–10 MeV/u. The motion of the projectiles through the stopping medium is simulated by a code that combines Monte Carlo and a finite di...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 2009-08, Vol.267 (16), p.2647-2652
Main Authors: Garcia-Molina, Rafael, Abril, Isabel, Denton, Cristian D., Heredia-Avalos, Santiago, Kyriakou, Ioanna, Emfietzoglou, Dimitris
Format: Article
Language:English
Subjects:
Bragg peak
Depth-dose distributions
Dielectric formalism
Energy loss function
Liquid water
Mean excitation energy
Stopping power
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Summary:We have calculated the dose distribution delivered by proton and helium beams in liquid water as a function of the target-depth, for incident energies in the range 0.5–10 MeV/u. The motion of the projectiles through the stopping medium is simulated by a code that combines Monte Carlo and a finite differences algorithm to consider the electronic stopping power, evaluated in the dielectric framework, and the multiple nuclear scattering with the target nuclei. Changes in projectile charge-state are taken into account dynamically as it moves through the target. We use the MELF–GOS model to describe the energy loss function of liquid water, obtaining a value of 79.4 eV for its mean excitation energy. Our calculated stopping powers and depth-dose distributions are compared with those obtained using other methods to describe the energy loss function of liquid water, such as the extended Drude and the Penn models, as well as with the prediction of the SRIM code and the tables of ICRU.
ISSN:0168-583X
1872-9584
DOI:10.1016/j.nimb.2009.05.038