no code implementations • 11 Jan 2022 • J. Schuemann, A. McNamara, J. W. Warmenhoven, N. T. Henthorn, K. Kirkby, M. J. Merchant, S. Ingram, H. Paganetti, KD. Held, J. Ramos-Mendez, B. Faddegon, J. Perl, D. Goodhead, I. Plante, H. Rabus, H. Nettelbeck, W. Friedland, P. Kundrat, A. Ottolenghi, G. Baiocco, S. Barbieri, M. Dingfelder, S. Incerti, C. Villagrasa, M. Bueno, M. A. Bernal, S. Guatelli, D. Sakata, J. M. C. Brown, Z. Francis, I. Kyriakou, N. Lampe, F. Ballarini, M. P. Ca-rante, M. Davidkova, V. Štepán, X. Jia, F. A. Cucinotta, R. Schulte, R. Stewart, D. Carlson, S. Galer, Z. Kuncic, S. LaCombe, J. Milligan, S. H. Cho, T. Inaniwa, T. Sato, M Durante, K Prise, S. J. McMahon
Through inter model comparisons, this unified standard has the potential to greatly advance our understanding of the underlying mechanisms of radiation induced DNA damage and the resulting observable biological effects.
no code implementations • 11 Dec 2020 • H. Rabus, W. B. Li, C. Villagrasa, J. Schuemann, P. A. Hepperle, L. de la Fuente Rosales, M. Beuve, S. Di Maria, A. P. Klapproth, F. Poignant, B. Rudek, H. Nettelbeck
Results of a Monte Carlo code intercomparison exercise for simulations of the dose enhancement from a gold nanoparticle (GNP) irradiated by X-rays have been recently reported.
Medical Physics