Muon Collider Simulation, CD/FNAL

Radius of a track in the Alternate Solenoidal Channel

[warning] Muon Collider Simulation Internal Pages (Password Required)

  • Theory and Simulation, talk written by Jonathan Wurtele and presented by Paul Lebrun, Feb. 2 2000, BrookHaven (PostScript)

  • Geant4 for Feasibility Study II and beyond, talk presented by Paul Lebrun, Jan 29 2000, BrookHaven (PostScript)

  • The SFoFo channel, performance and Tolerance results using Geant4, talk presented by Paul Lebrun, Jan 29 2000, BrookHaven (PostScript)

  • Cooling Status talk, MUCOOL meeting dec 1 2000 Html , Power Point , and Postcript

  • ICool - Geant4 Comparison, Feasibility II Video meeting, Jan 8 2000 (PostScript)

    Packages

  • Minutes of the Cooling and Optics meeting.

  • Software methodology and code organisations.

    Note: the Logo on the top of this page has been obtained with the DPGeant package, and represents the radial excursions of a `hot' track being cooled downdown the Alternate Solenoid channel, for about ten 2m. long cells. Maximum displacement occurs when the longitudinal axial field vanishes, at 1., 3., 5.m.. three to four Larmor oscillations are visible at the low beta regions (0., 2m., 4m...). The color of the track is matched to the momentum, and fluctuates from 175. GeV/c (Red) up to 220 MeV/c (Blue) as the muon is being decelerated by the Hydrogen at low beta and re-accelerated by the r.f. system at high beta. Synchrotron ocscillations are induced by straggling and limited r.f. cavity aperture and are increasing, limiting the total length of such a channel.

    Muon Collider Page, FNAL [fermi at work]
    Paul Lebrun
    lebrun@fnal.gov