| Paper |
Title |
Other Keywords |
Page |
| TU302 |
Future Developments in Electron Linac Diagnostics
|
linac, emittance, laser, electron |
280 |
| |
- M.C. Ross
SLAC/NLC, Menlo Park, California
| |
The next generation of electron linacs will fill two different roles: - ultra-low emittance, very high power accelerators for linear colliders and
- ultra-short bunch, high stability accelerators for SASE X-ray production.
In either case, precision control based on non-invasive, reliable, beam instrumentation will be required. For the linear collider, low emittance transport is an important concern for both warm and superconducting linacs. Instrumentation will be used to control and diagnostics will be used to validate emittance preserving strategies, such as beam based alignment and dispersion - free steering. Tests at the KEK ATF and the SLAC FFTB have demonstrated the required performance for beam position and beam size monitors. Linacs intended for FEL's will require precision bunch length diagnostics because of expected non-linear micro-bunching processes. A wide variety of devices are now in development at FEL prototypes, including TTF2 at DESY and SPPS at SLAC. We present a review of the new diagnostic systems.
|
|
|
Transparencies
|
|
|
| TUP72 |
TTF II Beam Monitors for Beam Position, Bunch Charge and Phase Measurements
|
vacuum, undulator, pick-up, single-bunch |
435 |
| |
- M. Wendt, D. Nölle
DESY, Hamburg
| |
An overview of the basic beam instrumentation with regard to elecromagnetic beam monitors for the TESLA Test Facility phase II (TTF II) is given. Emphasis is put on beam position monitor (BPM) and toroid transformer systems for beam orbit and bunch charge observations. Furthermore broadband monitors, i.e. wall current and bunch phase monitors, are briefly presented.
|
|
|
|