Abstract
The Front-End Test Stand (FETS) aims to demonstrate clean chopping of a 60mA, 3MeV H- ion beam. Such high beam intensities require unconventional emittance and pro- file measuring devices such as the laserwire system that will be used on FETS.
A laser is used to neutralise part of the H- ion beam. The main beam is then separated from the stripped beam by using a dipole magnet. This paper presents tracking results of the laser diagnostic lattice using a simulated field map of an existing dipole magnet and investigates the possibility of laser stripping upstream of the dipole.
A laser is used to neutralise part of the H- ion beam. The main beam is then separated from the stripped beam by using a dipole magnet. This paper presents tracking results of the laser diagnostic lattice using a simulated field map of an existing dipole magnet and investigates the possibility of laser stripping upstream of the dipole.
Original language | English |
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Title of host publication | 4th International Beam Instrumentation Conference |
Subtitle of host publication | IBC2015, Melbourne, Australia |
Publisher | JACoW Publishing |
Chapter | Transverse Profile Monitors |
Pages | 521-525 |
Number of pages | 5 |
ISBN (Electronic) | 978-3-95450-176-2 |
DOIs | |
Publication status | Published - Jan 2016 |