NLC Synchrotron Radiation and Beam Pipe Radius - PowerPoint PPT Presentation

1 / 8
About This Presentation
Title:

NLC Synchrotron Radiation and Beam Pipe Radius

Description:

Ideal halo collimation assumed. NLC - The Next Linear Collider Project ... SR from beam halo presents most strict limit. depends on collimation ... – PowerPoint PPT presentation

Number of Views:139
Avg rating:3.0/5.0
Slides: 9
Provided by: stanher
Category:

less

Transcript and Presenter's Notes

Title: NLC Synchrotron Radiation and Beam Pipe Radius


1
NLC Synchrotron Radiation and Beam Pipe Radius
  • Stan Hertzbach
  • UMass
  • Snowmass 2001
  • 5 July 2001

2
SR Calculations
  • These SR calculations were for
  • 500 GeV center of mass energy
  • 4.3 m L
  • Optics does not include sextupoles or octupoles
    which have become very important FF elements.
  • Halo is assumed to be a very broad Gaussian,
    often called a flat halo.
  • Ideal halo collimation assumed.

3
What Limits Vertex Detector Radius?
  • Radius allowed by beam-beam interaction pairs is
    determined by detector solenoid strength.
  • Radius could be limited by exposure to neutrons
    from beam dump depends on dump line design.
  • Radius certainly limited by synchrotron radiation
  • SR from beam halo presents most strict limit
  • depends on collimation
  • depends somewhat on assumptions about halo
  • SR from Gaussian core of beam also limits radius
  • allow for larger than nominal emittance at
    startup
  • allow for energy variation

4
Halo SR at the Beam Pipe
Assumes 1E-3 halo Eg 3-4 MeV Sextupoles not yet
included Effective vs. Ideal accounts for 1 beam
energy spread and planar collimation
Flare
Min. radius
5
Halo Synchrotron Radiation Fans with 240 mrad x
1000 mrad Collimation
6
Beam Pipe Radius Limit from Larger than Nominal
Emittance
  • Larger than nominal emittance Gaussian beam.
  • Startup issues.
  • Factor of 2 in beam size is factor of 4 in
    emittance.
  • Running below nominal energy (500 GeV Ecm) will
    mean reduced luminosity and/or larger emitttance.
  • SR Hit Density (hits/mm2) on Inner Wall of Beam
    Pipe

7
Beam Pipe Radius Limit from Energy Tails
  • If radius is very small, synchrotron radiation
    from the core Gaussian beam sets the limit.
  • Vertex detector hit density hit density on beam
    pipe.
  • SR Hit Density (hits/mm2) on Inner Wall of Beam
    Pipe
  • for 3 collimation depths and as beam energy varies

8
Work in Progress
  • Sextupoles and octupoles must be included.
  • Rather than add sextupoles and octupoles to the
    synchrotron radiation code, the code will be
    interfaced with standard optics codes, starting
    with DIMAD.
  • The code has been reorganized for this purpose,
    and new algorithms have been checked.
  • SR calculations just need the particle trajectory
    into out of each element.
  • Currently interfacing with DIMAD, thanks to PT.
  • Had hoped to have first results here, but ...
Write a Comment
User Comments (0)
About PowerShow.com