Spin Rotation and Energy Compression in the ILC Linac-to-Ring Positron Beamline | Zendy

Yuri Batygin | Zendy; SLAC | Zendy

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Spin Rotation and Energy Compression in the ILC Linac-to-Ring Positron Beamline

Author(s) -

Yuri Batygin,

SLAC

Publication year - 2006

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/889149

Subject(s) - beamline , linear particle accelerator , physics , positron , synchrotron , beam (structure) , solenoid , rotation (mathematics) , nuclear physics , optics , electron , geometry , mathematics , quantum mechanics

Linac-to Ring beamline for positron beam injection into damping ring at the energy of 5 GeV is considered. The beamline performs spin rotation and energy compression of the positron beam extracted from the booster linac. The lattice includes four 90{sup o} phase-advance FODO cells with bending magnets placed between them, a solenoid, and the RF structure. An analytical treatment of the beamline is performed. Basic parameters and optimal configuration are discussed

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