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Torun, Y.

Paper Title Page
WEPE065 The US Muon Accelerator Program 3491
 
  • A.D. Bross, S. Geer, V.D. Shiltsev
    Fermilab, Batavia
  • H.G. Kirk
    BNL, Upton, Long Island, New York
  • Y. Torun
    IIT, Chicago, Illinois
  • M.S. Zisman
    LBNL, Berkeley, California
 
 

An accelerator complex that can produce ultra-intense beams of muons presents many opportunities to explore new physics. A facility of this type is unique in that, in a relatively straightforward way, it can present a physics program that can be staged and thus move forward incrementally, addressing exciting new physics at each step. At the request of the US Department of Energy's Office of High Energy Physics, the Neutrino Factory and Muon Collider Collaboration and the Fermilab Muon Collider Task Force have recently submitted a proposal to create a Muon Accelerator Program that will have, as a primary goal, to deliver a Design Feasibility Study for an energy-frontier Muon Collider after a 7 year R&D program. This paper presents a description of a Muon Collider facility with a brief physics motivation, gives an overview of the proposal with respect to its organization and timeline and then discusses in some detail its major technical components.

 
THPEA054 Rectangular Box Cavity Tests in Magnetic Field for Muon Cooling 3795
 
  • Y. Torun, D. Huang
    IIT, Chicago, Illinois
  • A.D. Bross, M. Chung, A. Jansson, A. Kurup, J.R. Misek, A. Moretti
    Fermilab, Batavia
  • J. Norem
    ANL, Argonne
 
 

Muon cooling requires high-gradient normal conducting cavities operating in multi-Tesla magnetic fields for muon beam focusing in an ionization cooling channel. Recent experience with an 805-MHz pillbox cavity at the Fermilab MuCool Test Area has shown significant drop in accelerating field performance for the case of parallel electric and magnetic fields. It has been suggested that having the magnetic field perpendicular to the electric field should provide magnetic insulation and suppress breakdown. An 805-MHz Cu rectangular box cavity was built for testing with the fields perpendicular. It was mounted on an adjustable support to vary the angle between the rf electric and external magnetic field. We report on design and operation of the rectangular box cavity.

 
THPEA046 The MuCool Test Area and RF Program 3780
 
  • A.D. Bross, M. Chung, A. Jansson, A. Moretti, K. Yonehara
    Fermilab, Batavia
  • D. Huang, Y. Torun
    IIT, Chicago, Illinois
  • D. Li
    LBNL, Berkeley, California
  • J. Norem
    ANL, Argonne
  • R. B. Palmer, D. Stratakis
    BNL, Upton, Long Island, New York
  • R.A. Rimmer
    JLAB, Newport News, Virginia
 
 

TThe MuCool RF Program focuses on the study of normal conducting RF structures operating in high magnetic field for applications in muon ionization cooling for Neutrino Factories and Muon Colliders. This paper will give an overview of the program, which will include a description of the test facility and its capabilities, the current test program, and the status of a cavity that can be rotated in the magnetic field which allows for a more detailed study of the maximum stable operating gradient vs. magnetic field strength and angle.