Materials (Dec 2015)

Progress in Mirror-Based Fusion Neutron Source Development

  • A. V. Anikeev,
  • P. A. Bagryansky,
  • A. D. Beklemishev,
  • A. A. Ivanov,
  • E. Yu. Kolesnikov,
  • M. S. Korzhavina,
  • O. A. Korobeinikova,
  • A. A. Lizunov,
  • V. V. Maximov,
  • S. V. Murakhtin,
  • E. I. Pinzhenin,
  • V. V. Prikhodko,
  • E. I. Soldatkina,
  • A. L. Solomakhin,
  • Yu. A. Tsidulko,
  • D. V. Yakovlev,
  • D. V. Yurov

DOI
https://doi.org/10.3390/ma8125471
Journal volume & issue
Vol. 8, no. 12
pp. 8452 – 8459

Abstract

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The Budker Institute of Nuclear Physics in worldwide collaboration has developed a project of a 14 MeV neutron source for fusion material studies and other applications. The projected neutron source of the plasma type is based on the gas dynamic trap (GDT), which is a special magnetic mirror system for plasma confinement. Essential progress in plasma parameters has been achieved in recent experiments at the GDT facility in the Budker Institute, which is a hydrogen (deuterium) prototype of the source. Stable confinement of hot-ion plasmas with the relative pressure exceeding 0.5 was demonstrated. The electron temperature was increased up to 0.9 keV in the regime with additional electron cyclotron resonance heating (ECRH) of a moderate power. These parameters are the record for axisymmetric open mirror traps. These achievements elevate the projects of a GDT-based neutron source on a higher level of competitive ability and make it possible to construct a source with parameters suitable for materials testing today. The paper presents the progress in experimental studies and numerical simulations of the mirror-based fusion neutron source and its possible applications including a fusion material test facility and a fusion-fission hybrid system.

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