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Hybrid Warm-Cold Synchrotron for Muon Collider

This synchrotron design, outlined by Al Garren on July 28, 2011, features a FODO lattice similar to FNAL Main Ring. The structure includes fixed field dipoles at 8T interleaved with ramped dipoles ranging from -1.8 to 1.8T, along with ramped quadrupoles. The beam is injected at 375 GeV and extracted at 750 GeV, with a circumference of approximately 2π km and 8 superperiods. Each superperiod comprises three types of cells: standard (65.5m with fixed-field and ramped-field dipoles), short (49.125m, 3/4X standard with 2/3X standard bends), and 'empty' cells with no bends. These components, including Arc Cells, Straight Cells, Short Cells, and Insertion Superperiods, contribute to precise orbit offsets within the system.

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Hybrid Warm-Cold Synchrotron for Muon Collider

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  1. A HYBRID WARM-COLD SYNCHROTRON FOR THE MUON COLLIDER Al Garren July 28, 2011

  2. Parameters

  3. 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 ~2 pi km • 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) • ‘Empty’ cells with no bends

  4. Arc Cell

  5. Straight Cell

  6. Short Cell

  7. Insertion

  8. Superperiod

  9. Orbit Offsets

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