PURPOSE: Microdosimetric quantities can be used to estimate the biological effectiveness of radiation fields. This study evaluates the capability of the general-purpose Monte Carlo code FLUKA to simulate microscopic patterns of energy depositions for mixed radiation fields which are created by carbon ions at therapeutic energies in phantoms. MATERIALS AND METHODS: Measured lineal energy spectra and linear energy transfer (LET) spectra produced by carbon ions of about 300 MeV/n at different depths in phantoms representing human tissue were chosen from published literature and were compared with results from simulations of the measurement set-ups with FLUKA. RESULTS: Simulations of the dose-weighted lineal energy spectra yd(y) and dose-weighted LET spectra describe the main features of the respective measured spectra. All simulated frequency mean and dose mean lineal energy values are, respectively, within 21% and 11% of the measured ones. A slight underestimation of fragment fluences is notable. It is shown that the simultaneous detection of several charged fragments in the TEPC ('V effect') has considerable impact on the measured lineal energy spectra of fragments. CONCLUSIONS: Agreement between measurements and FLUKA results is encouraging and shows that FLUKA can predict microdosimetric spectra of mixed radiation fields created by therapeutic carbon ions in phantoms reasonably well.
PURPOSE: Microdosimetric quantities can be used to estimate the biological effectiveness of radiation fields. This study evaluates the capability of the general-purpose Monte Carlo code FLUKA to simulate microscopic patterns of energy depositions for mixed radiation fields which are created by carbon ions at therapeutic energies in phantoms. MATERIALS AND METHODS: Measured lineal energy spectra and linear energy transfer (LET) spectra produced by carbon ions of about 300 MeV/n at different depths in phantoms representing human tissue were chosen from published literature and were compared with results from simulations of the measurement set-ups with FLUKA. RESULTS: Simulations of the dose-weighted lineal energy spectra yd(y) and dose-weighted LET spectra describe the main features of the respective measured spectra. All simulated frequency mean and dose mean lineal energy values are, respectively, within 21% and 11% of the measured ones. A slight underestimation of fragment fluences is notable. It is shown that the simultaneous detection of several charged fragments in the TEPC ('V effect') has considerable impact on the measured lineal energy spectra of fragments. CONCLUSIONS: Agreement between measurements and FLUKA results is encouraging and shows that FLUKA can predict microdosimetric spectra of mixed radiation fields created by therapeutic carbon ions in phantoms reasonably well.
Authors: Hongyu Zhu; Yizheng Chen; Wonmo Sung; Aimee L McNamara; Linh T Tran; Lucas N Burigo; Anatoly B Rosenfeld; Junli Li; Bruce Faddegon; Jan Schuemann; Harald Paganetti Journal: Phys Med Biol Date: 2019-07-11 Impact factor: 3.609
Authors: Piotr Piasecki; Aleksandra Majewska; Jerzy Narloch; Maciej Maciak; Klaudia Brodaczewska; Michal Kuc; Halina Was; Marek Wierzbicki; Krzysztof Brzozowski; Piotr Ziecina; Andrzej Mazurek; Miroslaw Dziuk; Edward Iller; Claudine Kieda Journal: Sci Rep Date: 2021-02-24 Impact factor: 4.379