4R Doucet, M Olivares, F DeBlois, E B Podgorsak, I Kawrakow and j seuntjens,comparison of measured and Monte Carlo calculated dose distributions in inhomogeneous phantoms in clinical electron beams [J]. Phys. Med. Biol. 48 (2003) 2339-2354.
5Dong-Jian Liu, Lian Zou, Chang-Huan Tang, et al. A new reconstruction method based on classical molecular dynamics of neutron penumbral imaging in ICF [J]. Nuclear Instruments and Methods in Physics Research A, .2007,578:537-542.
6Qing Hou, Zhengming Luo, Zhu An. Universal expressions for range parameters of ions in solids [J]. Appl. Phys. 1994, 76 (10):5690-5696.
7Zhengming Luo, D. Jette, S. Walker. Electron dose calculation using multiple-scattering theory: A hybrid electron pencil-beam model [J]. Med.Phys, 1998,25:1954-1963.
8B Faddegon, E Schreiber, X Ding. Monte Carlo simulation of large electron fields[J]. Phys. Med. Biol, 2005.50: 741-753.
9Darko Lalic, Radovan D. Ilic, Srboljub J. Stankovic, Comparison of measured and Monte Carlo calculated electron beam central axis depth dose in water [J]. Archive of Oncology, 2001,9(2):83-87.
10A. S. Shiu, K. R. Hogstrom, Pencil-beam redefinition algorithm for electron dose distributions [J]. Med. Phys. 1991,18:7-18.