[1] GBT15146.91994, Nuclear criticality safety f fissile materials outside reactPerfmance testing requirements f nuclear criticality detection alarm systems[S]

[2] Qiu Yishu. Nuclear data sensitivity uncertainty analysis in the burnup calculation based on RMC code[D]. Beijing: Tsinghua University, 2017

[3] Broadhead B L, Hopper C M, Childs R L, et al. Sensitivity uncertainty analyses applied to criticality safety validation, methods development. Volume 1[R]. Oak Ridge National Lab., 1999.

[4] Marshall W J, Clarity J B, Rearden B T. A review of TSUNAMI applications[J]. Transactions of the American Nuclear Society, 123, 795-798(2020).

[5] Zheng Youqi, Qiao Liang, Wan Chenghui et al. Sensitivity analysis and similarity evaluation of sodium-cooled fast reactor in large size[J]. Annals of Nuclear Energy, 125, 283-290(2019).

[6] Ning Tong, Zhou Qi, Chen Xiaoliang et al. Application of similarity analysis method in zero-power experimental validation[J]. The European Physical Journal Conferences, 239, 17017(2020).

[7] Wang Kan, Li Zeguang, She Ding et al. RMC—A Monte Carlo code for reactor core analysis[J]. Annals of Nuclear Energy, 82, 121-129(2015).

[8] Rief H. Generalized Monte Carlo perturbation algorithms for correlated sampling and a second-order Taylor series approach[J]. Annals of Nuclear Energy, 11, 455-476(1984).

[9] Choi S H, Shim H J, Kim C H. Development of generalized perturbation theory algorithms for Monte Carlo eigenvalue calculations[J]. Nuclear Science and Engineering, 189, 171-187(2018).

[10] Jiang Shihang, Xu Yuan, Wang Kan, et al. RMCbased Monte Carlo shielding computation sensitivity analysis method[C]CPHY2022