Accelerator Physics Particle Acceleration

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Presentation transcript:

Accelerator Physics Particle Acceleration G. A. Krafft Old Dominion University Jefferson Lab Lecture 1 G. A. Krafft Jefferson Lab

RF Acceleration Characterizing Superconducting RF (SRF) Accelerating Structures Terminology Energy Gain, R/Q, Q0, QL and Qext RF Equations and Control Coupling Ports Beam Loading RF Focusing Betatron Damping and Anti-damping

Terminology 5 Cell Cavity 1 CEBAF Cavity “Cells” 9 Cell Cavity 1 DESY Cavity

Modern Jefferson Lab Cavities (1.497 GHz) are optimized around a 7 cell design Typical cell longitudinal dimension: λRF/2 Phase shift between cells: π Cavities usually have, in addition to the resonant structure in picture: (1) At least 1 input coupler to feed RF into the structure (2) Non-fundamental high order mode (HOM) damping (3) Small output coupler for RF feedback control

Some Fundamental Cavity Parameters Energy Gain For standing wave RF fields and velocity of light particles Normalize by the cavity length L for gradient

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