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Fusion Technology Volume 39, 2001 - Issue 2P1
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Technical Paper

A 14-MeV Intense Neutron Source Based on Muon-Catalyzed Fusion - I: An Advanced Design

Viatcheslav V. AnisimovInstitute of Physics and Power Engineering Obninsk, Russia
,
Vladimir A. Arkhangel’skyRussian Federal Nuclear Center Sarov, Russia
,
Nikolay S. GanchukRussian Federal Nuclear Center Sarov, Russia
,
Arkady A. YukhimchukRussian Federal Nuclear Center Sarov, Russia
,
Emanuela Cavalleri Ansaldo Nucleare, Genova, Italy
,
Fedor I. KarmanovInstitute of Nuclear Power Engineering Obninsk, Russia
,
Alexander Yu. KonobeyevInstitute of Nuclear Power Engineering Obninsk, Russia
,
Victor I. SlobodtchoukInstitute of Nuclear Power Engineering Obninsk, Russia
,
Lioudmila N. LatyshevaInstitute for Nuclear Research, Moscow, Russia
,
Igor A. PshenichnovInstitute for Nuclear Research, Moscow, Russia
,
Leonid I. PonomarevRussian Research Center “Kurchatov Institute” MUCATEX, Moscow, Russia
&
Marcell VecchiItalian Agency for New Technology, Energy and Environment Bologna, Italy
 show all
Pages 198-208 | Published online: 07 Apr 2017

References

  • C. PETITJEAN et al., “A 14-MeV High-Flux Neutron Source Based on Muon-Catalyzed Fusion—A Design Study,” Fusion Technol., 25, 437 (1994).
  • YU. V. PETROV and E. G. SAKHNOVSKY, “Production of 14-MeV Neutrons Based on Muon Catalyzed Fusion,” Preprint PNPI-1833, Gatchina (1992).
  • YU. V. PETROV and E. G. SAKHNOVSKY, “On a 14-MeV Neutron Source Based on μCF for Fusion Materials Research,” Hyperfine Interactions, 101/102, 647 (1996).
  • M. S. ONEGIN et al., “An Intense Neutron Source Based on μ-Catalyzed Fusion for Test Material Irradiation in a Trap with Strong Magnetic Field,” Proc. 6th Int. Conf. Engineering Problems of Thermonuclear Reactors, St. Petersburg, Russia, May 27–29, 1997.
  • L. I. PONOMAREV, “Muon Catalyzed Fusion,” Con-temp. Phys., 31, 4, 219 (1990).
  • V. V. ANISIMOV et al., “μCF Based 14-MeV Intense Neutron Source,” Hyperfine Interactions, 119, 329 (1999).
  • V. V. ANISIMOV et al., “Preliminary Design of the Intense Neutron Source Based on μ-Catalyzed Fusion for Irradiation Materials of Fusion Reactors,” 12.97 B301 N 00030, ENEA (1997).
  • L. N. LATYSHEVA, I. A. PSHENICHNOV, and M. VECCHI, “Negative Pion Production by Deuterons,” Hyperfine In-teractions, 101/102, 669 (1996).
  • V. V. ANISIMOV, E. CAVALLERI, F. I. KARMANOV, V. I. SLOBODTCHOUK, L. N. LATYSHEVA, I. A. PSHENICHNOV, and M. VECCHI, “A 14-MeV Intense Neutron Source Based on Muon-Catalyzed Fusion—II: Pion Production Target,” Fusion Technol., 39, 209 (2001).
  • V. V. ANISIMOV, E. CAVALLERI, F. I. KARMANOV, V. I. SLOBODTCHOUK, L. N. LATYSHEVA, I. A. PSHENICHNOV, and M. VECCHI, “A 14-MeV Intense Neutron Source Based on Muon-Catalyzed Fusion–III: Thermohydraulic Regime of the Synthesizer,” Fusion Technol., 39, 219 (2001).
  • YU. P. AVERIN et al., “First Measurements of dtμ Cycle Characteristics in Liquid H/D/T Mixture,” Hyperfine Interactions, 118, 121 (1999).
  • M. V. RICCI, “MAG3D-WF1, Un codice per il calcolo del campo di sistemi magnetici tridimensionali,” CNEN, Frascati-Rome (unpublished).
  • B. BLAU et al., “Status Report on the 12 T Split Coil Test Facility SULTAN,” IEEE Trans. Magn., 28, 1, 202 (1992).
  • A. S. ILJINOV, M. V. KAZARNOVSKY, and E. YA. PAREEV, Intermediate-Energy Nuclear Physics, CRC Press, Boca Raton, Florida (1993).
  • N. M. SOBOLEVSKY, “Monte Carlo Computer Code for the Calculation of the Internuclear Nucleon-Meson Cascade,” Preprint B1-2-5458, Dubna (1970).
  • “GEANT. Detector Description and Simulation Tool,” CERN Program Library Long Writeup W5013 (1994).
  • “ANSYS,” Swanson Analysis Systems.
  • M. VECCHI, “Consideration Concerning the ‘RTNSII’ and ‘NERO’ Types Neutron Sources,” B301 N 0001, ENEA (June 1990).
  • “MCNP—A General Monte Carlo N-Particle Transport Code,” LA-12625-M, Version 4B, J. F. BRIESMEISTER, Ed., Los Alamos National Laboratory (Mar. 1997).

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