Neutrino Factory Induction Linac Subsystem

In the present scenario no phase rotation is assumed directly after the target. The target is followed by a 50 meter long drift channel, used for decay, where a correlation betwen energy and position in the pulse develops. This is followed by an induction linac of 200 MeV total voltage. All this and the optimization are described in V. Balbekhov's papers, mucool note 59 and 63, located in the mucool note system.

• Voltage as a function of position in the 100 meter long induction linac (PDF)
• Phase rotation of Pions and Muons in the induction linac (A: after target, B: after drift, C: inside of the linac, F: end of the linac) (PDF)
• Preliminary design consideration for an induction linac (James Fockler, LBL) (PDF)
  
• Induction Linac Information (PDF)
  
• S. Yu's talk on the Status of the 200 MeV induction linac at the Dec'99 Collaboration Meeting. (PDF)
  
• LIA Core Magnetization in Fringe Magnetic Field. Summary of the test made in MRTI (Moscow, Russia) in support of Phase Rotation LIA study. Interpreted by I. Terechkine. (PDF)
  
• Magnetic System for Phase Rotation Channels: design approach presented by L. Tkachenko and S. Kozub (IHEP, Protvino) (PDF)
  
• LIA Pulsed Power System Optimization Approach (PDF)
  
• Muon Collider workups:
  
  • Most recent workup
    
  • Previous workup1.
    
  • Previous workup2.
    
  • Previous workup3.
    
• Pulsed Power System Study for Phase Rotation LIA" A. Sidorov, V. Kazacha (JINR, Dubna, Russia), I. Terechkine, FNAL (PDF)
  

For questions concerning this subsystem's web page content, contact Norbert Holtkamp <holtkamp@fnal.gov>.