[1] Zhao Zhentang, Gao Jie. Physics design f accelerats of high energy particle colliders[M]. Shanghai: Shanghai Jiao Tong University Press, 2020

[5] He Lijuan. Induced radioactivity research of highenergy electron linear accelerat (NSRL Linac)[D]. Hefei: University of Science Technology of China, 2016: 730

[6] GB 51721985, The rule f radiation protection of particle accelerats[S]

[7] HJ 9792018, Radiation safety protection on electron accelerat irradiation facilities[S]

[9] Diamond W T, Ross C K. Actinium-225 production with an electron accelerator[J]. Journal of Applied Physics, 129, 104901(2021).

[10] Huang Mingyang. Study of accelerator neutrino detection at a spallation source[J]. Chinese Physics C, 40, 063002(2016).

[11] Perillo-Marcone A, Calviani M, Solieri N, et al. Design and operation of the air-cooled beam dump for the extraction line of CERN's Proton Synchrotron Booster[J]. Physical Review Accelerators and Beams, 23, 063001(2020).

[12] Ganter R. SwissFEL conceptual design rept[R]. PSI Bericht 1004, 2011: 1004.

[13] Ahdida C, Bozzato D, Calzolari D, et al. New capabilities of the FLUKA multi-purpose code[J]. Frontiers in Physics, 9, 788253(2022).

[14] Battistoni G, Boehlen T, Cerutti F, et al. Overview of the FLUKA code[J]. Annals of Nuclear Energy, 82, 10-18(2015).

[15] Vlachoudis V. FLAIR: a powerful but user friendly graphical interface f FLUKA[C]Proceedings of International Conference on Mathematics, Computational Methods & React Physics. New Yk: American Nuclear Society, 2009, 2: 790800.

[16] Kutcher G J. Radiation protection design guidelines for 0.1 to 100 MeV particle accelerator facilities[J]. Medical Physics, 5, 73(1978).