1. Yu. G. Dragunov, M. A. Bykov, V. A. Vasilenko, and Yu. A. Migrov, “Experience with introduction and development of the KORSAR computer code for substantiating the safety of NPSs with type VVER reactors,” Therm. Eng. 53, 43–47 (2006).
2. H. Yamano, S. Fujita, Y. Tobita, K. Kamiyama, S. Kondo, K. Morita, E. A. Fischer, D. J. Brear, N. Shirakawa, X. Cao, M. Sugaya, M. Mizuno, S. Hosono, T. Kondo, and W. Masche, SIMMER-III: A Computer Program for LMFR Core Disruptive Accident Analysis. Version 3. A Model Summary and Program Description, JNC TN 9400 2003-071 (O-arai Engineering Center. JNC, 2003).
3. A SAS4A Study on the ULOF Initiating Phase Energetics of the Fast Breeder Reactor (FBR) JNES/FBRG10-0004 (Japan Nuclear Energy Safety Organization, 2011).
4. A. A. Butov, V. S. Zhdanov, I. A. Klimonov, I. G. Kudashov, A. E. Kutlimetov, N. A. Mosunova, A. A. Sorokin, V. F. Strizhov, S. A. Frolov, E. V. Usov, and V. I. Chukhno, “The EUCLID/V2 code physical models for calculating fuel rod and core failures in a liquid metal cooled reactor,” Therm. Eng. 66, 293–301 (2019). https://doi.org/10.1134/S0040601519050021
5. D. P. Veprev, A. V. Boldyrev, S. Y. Chernov, and N. A. Mosunova, “Development and validation of the BERKUT fuel rod module of the EUCLID/V1 integrated computer code,” Ann. Nucl. Energy. 113, 237–245 (2018).