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Delivery Ring Lattice Modifications For Transitionless Deceleration

Accelerator Physics 2016-12-23 v1

Abstract

A portion of the remnant Tevatron program infrastructure at Fermilab is being reconfigured to be used for the generation and delivery of proton and muon beams for new high-precision particle physics experiments. With the 8 GeV Booster as its primary source, the Mu2e experiment will receive 8.9 GeV/c bunched beam on target, after being stored and slow spilled from the Delivery Ring (DR) -- a refurbished debuncher ring from Tevatron antiproton production. For the Muon g-2 experiment, the DR will be tuned for 3.1 GeV/c to capture muons off of a target before sending them to this experiment's Storage Ring. The apertures in the beam transport systems are optimized for the large muon beams of this lower-energy experiment. In order to provide further flexibility in the operation of the DR for future possible low-energy, high intensity particle physics experiments (REDTOP, for example) and detector development, investigations are underway into the feasibility of decelerating beams from its maximum kinetic energy of 8 GeV level to lower energies, down to 1-2 GeV. In this paper we look at possible lattice modifications to the DR to avoid a transition crossing during the deceleration process. Hardware requirements and other operational implications of this scheme will also be discussed.

Keywords

Cite

@article{arxiv.1612.07777,
  title  = {Delivery Ring Lattice Modifications For Transitionless Deceleration},
  author = {J. A. Johnstone and M. J. Syphers},
  journal= {arXiv preprint arXiv:1612.07777},
  year   = {2016}
}

Comments

2 pp

R2 v1 2026-06-22T17:32:49.863Z