[1] Zhan Wenlong, Xu Hushan. Advanced fission energy program-ADS transmutation system[J]. Bulletin of Chinese Academy of Sciences, 27, 375-381(2012).

[2] Wang Jing, Huang Jian-Long, He Yuan. Multi-physics analysis of the RFQ for Injector SchemeⅡof C-ADS driver linac[J]. Chinese Physics C, 38, 107005(2014).

[3] Niu Haihua, Li Youtang, He Yuan. The mechanical design and fabrication of 162.5 MHz buncher for China accelerator driven sub-critical system injector II[J]. Nuclear Engineering and Technology, 49, 1071-1078(2017).

[4] Wu Q, Zhang Z M, Sun L T. A 2.45 GHz intense proton source and low energy beam transport system for China Initiative Accelerator Driven Sub-Critical reactor system[J]. Review of Scientific Instruments, 85, 02A703(2014).

[5] Yang Y, Zhang Z M, Wu Q. A low energy beam transport system for proton beam[J]. Review of Scientific Instruments, 84, 033306(2013).

[6] Yang Yao, Zhang Zimin, Zhang Wenhui. Study on beam emittance growth induced by spherical aberration of solenoid lens[J]. Atomic Energy Science and Technology, 47, 2336-2340(2013).

[7] [7] Celona L, Allegra L, Amato A, et al. Preliminary commissioning results of the proton source f ESS at INFNLNS[C] Proc of IPAC. 2016: 26282631.

[8] [8] Eshraqi M, Danared H, Jansson A, et al. ESS linac beam physics design update[C] Proc of IPAC. 2016: 947950.

[9] Weissman L, Berkovits D, Arenshtam A. SARAF phase I linac in 2012[J]. Journal of Instrumentation, T05004(20149).

[10] [10] Kai D, Flian K, Christian P. Perfmance of the SARAF ion source[C] Proc of PAC07, 2007, TUPAN009: 14071409.

[11] [11] Weissman L, Berkovits D, Eliyahu I, et al. The state of the SARAF LINAC Project[C] Proc of LINAC. 2010: 679683.

[12] Wu Qi, Jia Huan, Ma Hongyi. Research of emittance matching on the low energy beam transport line for ADS proton LINAC[J]. Nuclear Physics Review, 32, 5-9(2015).

[13] [13] Chen Weilong. LEBT design based on beam loss control[D]. Beijing: University of Chinese Academy of Sciences, 2016