Energy deposition model based on electron scattering cross section data from water molecules

A complete set of electrons scattering cross sections by water molecules over a broad energy range, from the me V to the Me V ranges, is presented in this study. These data have been obtained by combining experiments and calculations and cover most relevant processes, both elastic and inelastic, whi...

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Veröffentlicht in:	Journal of physics. Conference series 2008-10, Vol.133 (1), p.012002
Hauptverfasser:	Muñoz, A, Oiler, J C, Blanco, F, Gorfinkiel, J D, Limão-Vieira, P, Maira-Vidal, A, Borge, M J G, Tengblad, O, Huerga, C, Téllez, M, García, G
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Sprache:	eng
Schlagworte:	Deposition Electrons Energy Energy dissipation Monte Carlo simulation Physics Scattering cross sections Water chemistry
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container_title	Journal of physics. Conference series
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creator	Muñoz, A Oiler, J C Blanco, F Gorfinkiel, J D Limão-Vieira, P Maira-Vidal, A Borge, M J G Tengblad, O Huerga, C Téllez, M García, G
description	A complete set of electrons scattering cross sections by water molecules over a broad energy range, from the me V to the Me V ranges, is presented in this study. These data have been obtained by combining experiments and calculations and cover most relevant processes, both elastic and inelastic, which can take place in the considered energy range. A new Monte Carlo simulation programme has been developed using as input parameter these cross sectional data as well as experimental energy loss spectra. The simulation procedure has been applied to obtain electron tracks and energy deposition plots in water when irradiated by a Ru-106 plaque as those used for brachyteraphy of ocular tumours. Finally, the low energy electron tracks provided by the present model have been compared with those obtained with other codes available in the literature
doi_str_mv	10.1088/1742-6596/133/1/012002
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subjects	Deposition Electrons Energy Energy dissipation Monte Carlo simulation Physics Scattering cross sections Water chemistry
title	Energy deposition model based on electron scattering cross section data from water molecules
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