Frontiers of Particle Beams: Intensity Limitations
Frontiers of Particle Beams: Intensity Limitations Proceedings of a Topical Course Held by the Joint US-CERN School on Particle Accelerators at Hilton Head Island, South Carolina, USA 7–14 November 1990 / [electronic resource] :
edited by M. Dienes, M. Month, S. Turner.
- IX, 614 p. 108 illus. online resource.
- Lecture Notes in Physics, 400 0075-8450 ; .
- Lecture Notes in Physics, 400 .
Welcome address -- Intensity limitations in circular particle accelerators -- Wake fields and impedances -- Bench methods for bean-coupling impedance measurement -- Coherent beam instabilities -- Observation and correction of instabilities in circular accelerators -- Some longitudinal dynamics of bunched beams -- Low energy aspects of circular accelerators -- High current beam transport in linear accelerator structures -- Observation of high current effects in high energy linear accelerators -- Observations of the beam-beam interaction in Hadron colliders -- Beam-beam effects in electron-positron storage rings -- Coherent beam-beam effects -- Beam-beam phenomena in linear colliders -- Engineering limitations of proton colliders -- Engineering limitations with electrons -- Intrabeam scattering -- Ions and neutralization -- Beam loading in RF cavities -- High-brightness injectors for Hadron colliders -- The next linear collider -- Hadron collider luminosity limitations -- Physics and technology challenges of $$B\bar B$$ factories.
This is the proceedings of the fourth school in a series of specialized courses organized by CERN's CAS and the American USPAS. It deals with intensity limitations. The contribution thoroughly edited for this publication fall into the following categories: self and environmental fields - coherent instabilities and their simulation - beam-beam interaction - other multi-particle effects - beam source limitations - engineering limitations. This exposition of the inner working of high-intensity particle beams addresses particle physicistsas well as those that commission new machines. The lecturers were chosenas being at the forefront of latest developments in this field.
9783540467977
10.1007/3-540-55250-2 doi
Quantum theory.
Measurement Science and Instrumentation.
Elementary Particles, Quantum Field Theory.
T50
530.8
Welcome address -- Intensity limitations in circular particle accelerators -- Wake fields and impedances -- Bench methods for bean-coupling impedance measurement -- Coherent beam instabilities -- Observation and correction of instabilities in circular accelerators -- Some longitudinal dynamics of bunched beams -- Low energy aspects of circular accelerators -- High current beam transport in linear accelerator structures -- Observation of high current effects in high energy linear accelerators -- Observations of the beam-beam interaction in Hadron colliders -- Beam-beam effects in electron-positron storage rings -- Coherent beam-beam effects -- Beam-beam phenomena in linear colliders -- Engineering limitations of proton colliders -- Engineering limitations with electrons -- Intrabeam scattering -- Ions and neutralization -- Beam loading in RF cavities -- High-brightness injectors for Hadron colliders -- The next linear collider -- Hadron collider luminosity limitations -- Physics and technology challenges of $$B\bar B$$ factories.
This is the proceedings of the fourth school in a series of specialized courses organized by CERN's CAS and the American USPAS. It deals with intensity limitations. The contribution thoroughly edited for this publication fall into the following categories: self and environmental fields - coherent instabilities and their simulation - beam-beam interaction - other multi-particle effects - beam source limitations - engineering limitations. This exposition of the inner working of high-intensity particle beams addresses particle physicistsas well as those that commission new machines. The lecturers were chosenas being at the forefront of latest developments in this field.
9783540467977
10.1007/3-540-55250-2 doi
Quantum theory.
Measurement Science and Instrumentation.
Elementary Particles, Quantum Field Theory.
T50
530.8