@article{oai:repo.qst.go.jp:00075974,
 author = {Liang-Di, Huo and Luo-Huan, Wang and Jia-Huan, Zhu and Hui-Ling, Li and Jun-Sheng, Li and Kodaira, S. and Yasuda, N. and Dong-Hai, Zhang and Satoshi, Kodaira},
 journal = {Chinese Journal of Physics},
 month = {May},
 note = {The total charge-changing cross sections and the partial cross sections of 56Fe fragmentation on polyethylene, carbon and aluminum targets at the highest energy of 496 A MeV are investigated using CR-39 plastic nuclear track detector. The total charge-changing cross-section for hydrogen target is calculated based on the results of polyethylene and carbon targets. It is found that the total charge-changing cross sections for fragmentation of 56Fe on hydrogen, carbon and aluminum targets are independent on the beam energy in our studied energies, and are consistent with the predictions of Bradt–Peter semi-empirical formula, Nilsen parameterized formula, NUCFRG2 and QMSFRG theoretical simulation codes. The partial cross sections for projectile fragment production are independent on beam energy in our studied energies for each targets and do not show a significant even-odd effect.},
 pages = {88--97},
 title = {The total charge-changing cross sections and the partial cross sections of 56Fe fragmentation on Al, C and CH2 targets},
 volume = {60},
 year = {2019}
}