• Corpus ID: 219179378

Beam-beam effects in the Super Proton-Proton Collider

  title={Beam-beam effects in the Super Proton-Proton Collider},
  author={Lijiao Wang and Tanaji Sen and Jingyu Tang},
  journal={arXiv: Accelerator Physics},
The Supper Proton-Proton Collider is a next-generation hadron collider that is now being designed. A baseline design aims for a peak luminosity of about 1*10^35 cm^-2 s^-1. The focus of this article is the effect of beam-beam interactions which are expected to strongly influence stability in the beams. We start with a discussion of a scheme to generate the crossing angles at the interaction points while also correcting the dispersion thus created. The optics constraints on the achievable \b{eta… 



Beam–beam simulation code BBSIM for particle accelerators

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Satellite Resonances Due to Beam-Beam Interaction

  • A. Piwinski
  • Physics
    IEEE Transactions on Nuclear Science
  • 1977
Experimental and theoretical investigations have shown that the luminosity of the storage ring DORIS is limited by betatron-synchrotron resonances which are produced by the beam-beam interaction. The

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Luminosity is to be produced at the SSC collider by crossing with finite angle the counter circulating proton beams at each interaction point (IP). Such a crossing angle introduces unwanted

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During tltcs physics production runs in 19SS anti 1989 both the SF’S and the Te\.atrou achieved a maximum luminosity between 2 and 3 x lo~J”c?ri-2s-’ with a luminosity lif?tintc between 10 and 1.5

Analytical considerations for linear and nonlinear optimization of the theoretical minimum emittance cells: Application to the Compact Linear Collider predamping rings

The theoretical minimum emittance cells are the optimal configurations for achieving the absolute minimum emittance, if specific optics constraints are satisfied at the middle of the cell's dipole.