edited by Anthony K. Hyder, M. Franklin Rose, Arthur H. Guenther.
Boston, MA :
Springer US,
1988.
NATO ASI Series, Series B: Physics,
178
0258-1221 ;
To High Brightness -- - High-Brightness Accelerators -- Brightness, Emittance and Temperature -- Historical Overview of High-Brightness Accelerators -- Accelerator Physics -- High-Intensity Circular Proton Accelerators -- High-Brightness Circular Accelerators -- Wakefield Acceleration: Concepts and Machines -- Wake Fields: Limitations and Possibilities -- High-Brightness RF Linear Accelerators -- Induction Linacs -- Advanced Concepts for Acceleration -- Beam Physics -- The Physics of Codes -- High-Current Electron-Beam Transport in Recirculating Accelerators -- High-Current Electron-Beam Transport in Linear Induction Accelerators -- Requirements on the Beam for mm- and Sub-mm-Wave Generation -- Brightness Limits for Ion Sources -- Brightness Limits in Linear Ion Accelerators -- Beam-Current Limits in Circular Accelerators and Storage Ring Longitudinal Coasting Beam Instabilities -- Injectors and Ion Sources -- Accelerator Engineering -- Radial Transmission-Line Linear Accelerators -- RF Breakdown Limits -- RF Power Sources for High-Brightness RF Linacs -- Fundamental Features of Superconducting Cavities for High-Brightness Accelerators -- Applications of High-Brightness Beams -- Free-Electron Laser Amplifier Driven by an Induction Linac -- FEL Oscillators (Microtrons) -- The U.K. Free-Electron Laser -- The ACO Storage Ring Free Electron Laser -- Emittance, Brightness, Free-Electron Laser Beam Quality, and the Scaled Thermal Velocity -- Induction Linacs for Heavy-Ion Fusion -- High-Average-Power Electron Accelerators for Food Processing -- Summary -- Summary of Linear-Beam Transport -- Appendix A: Poster Papers -- Vacuum Arc Array Ion Injector C. Burkhart, S. Humphries, Jr. -- Impedance Variations in the Load of a Thyratron-Switched Discharge Circuit G. L. Clark -- Gyrac, A Photon Factory? O. Gal -- The SERC Plasma Beat Wave Experiment T. Garvey, et al. -- Scaling of Current Density, Total Current, Emittance, and Brightness for Hydrogen Negative Ion Sources J. R. Hiskes -- Cyclotron Resonance Laser Accelerator S. P. Kuo -- Beam 'Self-Trapping' in the NRL Modified Betatron Accelerator F. Mako, et al. -- Electron Cyclotron Maser Using a Pulsed Relativistic Electron Beam A. D. R. Phelps, et al. -- Transport of High-Brightness Electron Beams with Ion Focusing J. R. Smith, R. F. Schneider -- Generation of Energetic Ion Beams from a Plasma Focus I. Ueno, et al. -- Beam Dynamics Analysis in an RFQ J. H. Whealton, et al. -- Appendix B: Organizing Committee, Lecturers, and Participants.
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A NATO Advanced Study Institute (ASI) on High-Brightness Accelerators was held at the Atholl Palace Hotel, Pitlochry, Perthshire, Scotland, from July 13 through July 25, 1986. This publication is the Proceedings of the Institute. This ASI emphasized the basic physics and engineering of the rela tively new and fast-emerging field of high-brightness particle accelera tors. These machines are high- to very-high-current (amperes to hundreds of kiloamperes), modest-voltage (megavolt to tens of megavolts) devices, and as such are opposed to those historically used for high-energy physics studies (i.e., gigavolt and higher energies and rather low currents). The primary focus of the Institute was on the physics of the accelerator and the beam, including the dynamics, equilibria, and insta bilities of high-current beams near the space-charge limit; accelerator engineering techniques; and the applications of high-brightness beams in areas such as free-electron lasers, synchrotron-radiation sources, food processing, and heavy- and light-ion fusion. The Institute concentrated on bringing together several diverse but related communities which, we hope, benefited from this opportunity to interact: the North American activity in machine technology, engineer ing, and diagnostics with the strong European theoretical community; the basic beam physicists with the engineering technologists.