1. Simulation of divertor targets shielding during transients in ITER;Pestchanyi;Fusion Eng. Des.,2016

2. Würz, H & Arkhipov, N.I. & Bakhtin, V.P. & Konkashbaev, I & Landman, I & Safronov, V & Toporkov, Dmitriy & Zhitlukhin, A.M. Experimental simulation and numerical modeling of vapor shield formation and divertor material erosion for ITER typical plasma disruptions. Journal of Nuclear Materials. 212-215 (1994) 1066-1070.

3. Tereshin, V.I. & Chebotarev, V & Garkusha, I.E. & Makhlai, Vadym & Mitina, N.I. & Morozov, A.I. & Solyakov, D & Trubchaninov, S.A. & Tsarenko, A.V. & Wuerz, H. Investigation of High Power Quasi-Steady-State Plasma Streams Interaction with Mirror Magnetic Field and Thermal Quench Disruption Simulations. Fusion Technology. 35 (1999) 248-252.

4. D G Solyakov1, A V Tsarenko, Application of powerful quasi-steady-state plasmaaccelerators for simulation of ITER transient heat loads on divertor surfaces;Tereshin;Plasma Phys. Control. Fusion,2007

5. Comprehensive 3-D simulation and performance of ITER plasma facing and nearby components during transient events—Serious design issues;Sizyuk;PHYSICS OF PLASMAS,2018