Monitoring the Bragg peak location of 73 MeV/u carbon ions by means of prompt γ-ray measurements
暂无分享,去创建一个
M. Bajard | N. Freud | D. Dauvergne | E. Testa | M. Testa | C. Ray | N. Freud | D. Dauvergne | É. Testa | M. Bajard | M. Chevallier | C. Ray | M. Testa | M. Chevallier | F. Le Foulher | J.-C. Poizat | J.-M. L'etang | J'er'emy L'etang | J. Poizat | F. L. Foulher | Jean Michel Létang
[1] Dieter Schardt,et al. Tumor therapy with high-energy carbon ion beams , 2007 .
[2] Katia Parodi,et al. Charged hadron tumour therapy monitoring by means of PET , 2004 .
[3] Katia Parodi,et al. Random coincidences during in-beam PET measurements at microbunched therapeutic ion beams , 2005 .
[4] Kenichi Tanaka,et al. Microdosimetric evaluation of secondary particles in a phantom produced by carbon 290 MeV/nucleon ions at HIMAC. , 2007, Journal of radiation research.
[5] Chan Hyeong Kim,et al. Prompt gamma measurements for locating the dose falloff region in the proton therapy , 2006 .
[6] Dieter Schardt,et al. Fast neutrons produced by nuclear fragmentation in treatment irradiations with 12C beam. , 2004, Radiation protection dosimetry.
[7] Wen-qing Shen,et al. Total reaction cross section for heavy-ion collisions and its relation to the neutron excess degree of freedom , 1989 .
[8] K. Parodi,et al. Suppression of random coincidences during in-beam PET measurements at ion beam radiotherapy facilities , 2005, IEEE Transactions on Nuclear Science.