The State of Particle Accelerators and High Energy Physics: (Fermilab Summer School, 1981)R. A. Carrigan, Jr., F. R. Huson, Melvin Month |
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Contents
HighEnergy Physics Where We Are and Where We Are Going | 2 |
Accelerator Physics in the long Range Future | 25 |
The SLAC Linear Collider | 43 |
Copyright | |
9 other sections not shown
Common terms and phrases
accelerator angle antiprotons asymmetry beam-beam cavities center-of-mass CERN charged collision point cooling coupling curve cyclotron damping ring decay DESY detector distribution effect electron electron-positron electron-proton emittance growth energy spread expected experimental Fermilab frequency function gauge theories gluon hadrons HERA Higgs high energy injection injector JADE jet axis Laboratory leptons limit linac linear colliders longitudinal luminosity machine magnets mass measured mesons muon neutral neutrino Nucl.Phys observed pair pair production parameters particles parton peak PETRA phase space Phys Phys.Lett Phys.Rev Phys.Rev.Lett physics plotted in Fig plotted versus pointlike polarization positron prediction production proton quadrupole radiation scalar scale shown in Fig signal SLAC spin standard model stochastic cooling storage rings superconducting synchrotron target TASSO Tevatron three jet events total cross section transverse momentum wake field