Physical Review Special Topics. Accelerators and Beams (Aug 2000)

Low-loss design for the high-intensity accumulator ring of the Spallation Neutron Source

  • J. Wei,
  • D. T. Abell,
  • J. Beebe-Wang,
  • M. Blaskiewicz,
  • P. R. Cameron,
  • N. Catalan-Lasheras,
  • G. Danby,
  • A. V. Fedotov,
  • C. Gardner,
  • J. Jackson,
  • Y. Y. Lee,
  • H. Ludewig,
  • N. Malitsky,
  • W. Meng,
  • Y. Papaphilippou,
  • D. Raparia,
  • N. Tsoupas,
  • W. T. Weng,
  • R. L. Witkover,
  • S. Y. Zhang

DOI
https://doi.org/10.1103/PhysRevSTAB.3.080101
Journal volume & issue
Vol. 3, no. 8
p. 080101

Abstract

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This paper summarizes the low-loss design for the Spallation Neutron Source accumulator ring [“Spallation Neutron Source Design Manual” (unpublished)]. A hybrid lattice consisting of FODO arcs and doublet straights provides optimum matching and flexibility for injection and collimation. For this lattice, optimization focuses on six design goals: a space-charge tune shift low enough (below 0.15) to avoid strong resonances, adequate transverse and momentum acceptance for efficient beam collimation, injection optimized for desired target beam shape and minimal halo development, compensation of magnet field errors, control of impedance and instability, and prevention against accidental system malfunction. With an expected collimation efficiency of more than 90%, the uncontrolled fractional beam loss is expected to be at the 10^{-4} level.