HYBRID WARM-COLD SYNCHROTRON FOR THE MUON COLLIDER

Jun 25, 2025

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This project aims to develop a hybrid warm-cold synchrotron for the muon collider. The design includes a FODO lattice similar to FNAL Main Ring, fixed-field dipoles at 8T, and more. The accelerator is optimized for beam injection at 375 GeV and extraction at 750 GeV, with a circumference of 6288 meters and 8 superperiods. Each superperiod consists of standard, short, and empty cell types with specific properties. Straight cells, short cells, dispersion suppressors, insertion superperiod, and orbit offsets are some key components of this innovative design.

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HYBRID WARM-COLD SYNCHROTRON FOR THE MUON COLLIDER

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HYBRID WARM-COLD SYNCHROTRON FOR THE MUON COLLIDER Al Garren July 28, 2011
8 PERIOD RING Parameters
8 PERIOD RING General Properties • FODO lattice similar to FNAL Main Ring • Fixed field dipoles 8T interleaved with ramped dipoles at -1.8 to 1.8T • Ramped quadruples • Beam injected at 375 GeV, extracted at 750 GeV • Circumference 6288 m • 8 superperiods • Superperiod contains 3 cell types: standard, short, empty • Standard 65.5m, 4 fixed-field and 4 ramped-field dipoles per half-cell • Short 49.125m (3/4Xstandard with 2/3X standard bends) • Straightcells with no bends 65.5 m