Zobrazeno 1 - 10
of 12
pro vyhledávání: '"M. S. Yudkevich"'
Autor:
M. A. Kalugin, A. P. Novosel’tsev, G. S. Sergeev, D. A. Shkarovskiy, A. S. Kulakov, N. I. Alekseev, M. S. Yudkevich
Publikováno v:
Physics of Atomic Nuclei. 77:1583-1590
Calculation of 335 critical assemblies (benchmark experiments) with the core of highly enriched uranium and reflectors of various materials is performed. The statistical analysis of the results shows that, for all 16 materials studied, the absolute v
Autor:
S. V. Marin, A. S. Kulakov, A. P. Novosel’tsev, E. A. Sukhino-Khomenko, S. N. Bol’shagin, N. I. Alekseev, M. A. Kalugin, M. S. Yudkevich, D. S. Oleynik, M. I. Gurevich, E. A. Gomin, A. V. Pryanichnikov, S. S. Gorodkov, D. A. Shkarovskiy
Publikováno v:
Physics of Atomic Nuclei. 75:1634-1646
The software developed within the framework of the MCU project which implements the Monte Carlo method for solving the transport equations for various kinds of radiation is widely used for calculating nuclear reactors of different types. The final ve
Autor:
M. S. Yudkevich
Publikováno v:
Physics of Atomic Nuclei. 75:1647-1650
This paper described the procedure of implementation and the possibilities of the BURNUP program. The purpose of the program is to predict the change in the nuclear composition of the materials of which a reactor is made in the course of its run and
Autor:
M. S. Onegin, M. S. Yudkevich
Publikováno v:
Bulletin of the Russian Academy of Sciences: Physics. 76:1081-1084
We calculate the yield of 176mLu isomer in dependence on neutron energy using the Huizenga-Vandenbosch and Hauser-Feshbach statistical models. The results are compared to experimental data. We discuss the impact of uncertainty in calculating the isom
Autor:
M. S. Yudkevich
Publikováno v:
Physics of Atomic Nuclei. 74:1878-1883
The procedure of calculation of burnup of fuel and strong neutron absorber in a nuclear reactor is described. The method proposed here makes it possible to avoid difficulties associated with heterogeneous blocking of the absorption cross section. The
Autor:
I. M. Rozhdestvenskii, M. S. Yudkevich, E. A. Gomin, M. A. Kalugin, A. P. Zhirnov, M. I. Gurevich
Publikováno v:
Atomic Energy. 105:84-89
A general scheme, methods, and algorithms, implemented in the MCU-FCP program, making it possible to calculate the neutron-physical characteristics of two-and three-dimensional RBMK cells and polycells taking account of fuel burnup during reactor ope
Autor:
V. F. Boyarinov, V. D. Davidenko, N. V. Novikov, E. S. Glushkov, P. A. Fomichenko, E. F. Mitenkova, V. F. Tsibul’skii, G. V. Kompaniets, V. I. Bryzgalov, M. I. Gurevich, Yu. P. Sukharev, V. A. Nevinitsa, A. M. Krutov, N. G. Kodochigov, E. A. Gomin, M. S. Yudkevich, E. V. Marova
Publikováno v:
Atomic Energy. 102:75-81
The main results of computational and experimental investigations of the neutron-physical characteristics of the GT-MHR high-temperature gas-cooled reactor are presented: analysis of the possible reasons for the uncertainties in the calculations of t
Publikováno v:
Modern Physics Letters A. 27:1250232
New severe constraints on the variation of the fine structure constant have been obtained from reactor Oklo analysis in our previous work. We investigate here how these constraints confine the parameter of BSBM model of varying $\alpha$. Integrating
Autor:
V. V. Tebin, M. S. Yudkevich
Publikováno v:
Soviet Atomic Energy. 59:639-645
A subgroup equation of neutron transfer valid for resonances of arbitrary width is formulated. The problem of obtaining subgroup parameters in the approximation of a constant (in units of lethargy) collision density for neutrons of a single subgroup
Autor:
A. V. Antonov, B. V. Granatkin, M. V. Kazarnovskii, Yu. A. Merkul'ev, V. Z. Nozik, M. S. Yudkevich, �. G. Sakhnovskii, V. V. Vazinger, S. A. Churin, Ch. Stoyanov, L. Aleksandrov, V. Gadzhokov, V. A. Kononov, K. A. Dergobuzov, V. M. Zykov, A. E. Ignatenko, A. D. Kul'kov, P. P. Dmitriev, I. O. Konstantinov, N. N. Krasnov, C. P. Dmitriev, V. I. Ermakov, V. P. Kovalev, I. A. Prudnikov, M. S. Susloparov, A. S. Toropov, S. P. Filipenok, V. P. Kharin
Publikováno v:
Soviet Atomic Energy. 29:910-919