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Soviet Atomic Energy

, Volume 70, Issue 2, pp 91–96 | Cite as

Solution of transport equations by the Monte Carlo method, taking account of the space-time variation in the interaction cross section

  • A. A. Androsenko
  • P. A. Androsenko
  • S. V. Pupko
Articles
  • 19 Downloads

Keywords

Monte Carlo Method Transport Equation Interaction Cross Section 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Literature Cited

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    S. M. Ermakov and G. A. Mikhailov, Statistical Modeling [in Russian], Nauka, Moscow (1982).Google Scholar
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    A. M. Kovalenko and G. Ya. Trukhanov, “Modeling particle trajectories in inhomogeneous and nonsteady media using the delta-scattering method,” in: Monte Carlo Methods in Computational Mathematics and Mathematical Physics [in Russian], VTs SO Akad. Nauk SSSR, Novosibirsk (1974), pp. 198–205.Google Scholar
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    A. A. Androsenko and P. A. Androsenko, “BRAND program complex for calculating radiation-transport characteristics by the Monte Carlo method,” Vopr. At. Nauk. Tekh., Ser. Fiz. Tekh. Yad. Reakt., No. 7, 33–37 (1985).Google Scholar
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    H. Reynolds, “Critical experiments and calculations for uranium-graphite systems,” in: Physics of Nuclear Reactors [Russian translation], Vol. 3, Atomizdat, Moscow (1959), pp. 7–25.Google Scholar
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    K. Windsor, Scattering of Neutrons from Pulsed Sources [Russian translation], Énergoatomizdat, Moscow (1985).Google Scholar

Copyright information

© Plenum Publishing Corporation 1991

Authors and Affiliations

  • A. A. Androsenko
  • P. A. Androsenko
  • S. V. Pupko

There are no affiliations available

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