## Physics of High Energy Particle Accelerators: (SLAC Summer School, 1982) |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

Some Historical Milestones | 7 |

Particle Acceleration by Guided Waves | 37 |

Electron Linear Accelerators | 67 |

Copyright | |

19 other sections not shown

### Common terms and phrases

accelerator amplitude angle antiprotons approximation beam beam-beam beta function betatron betatron oscillations blowup bunch length calculated cell CERN charge chromaticity coherent coil collider components conductor coordinates damping density dipole discussed dispersion distribution effects electric field electron emittance energy spread equation factor Fermilab focusing frequency function given gradient harmonic High Energy horizontal IEEE Trans impedance increase instability integral interaction lattice limit linac linear longitudinal loss luminosity machine maximum mode momentum motion non-linear normal obtained orbit oscillation parameters Particle Accelerators perturbation phase space plane problem proton pulse quadrupole radiation radius region resonant RF cavities sextupoles shown in Fig shows signal simulation SLAC solution stochastic cooling storage ring structure superconducting surface synchrotron synchrotron radiation temperature test particles trajectory transformation transverse tune tuneshift unperturbed velocity vertical Vlasov equation wake field wave zero