Final commissioning results from the injection system for the Australian Synchrotron project

Danfysik has delivered a full-energy turn-key injection system for the Australian Synchrotron. The system consists of a 100 MeV linac, a low-energy transfer beamline, a 130 m circumference 3-GeV booster, and a high energy transfer beamline. The booster lattice was designed to have many cells with co...

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Published in2007 IEEE Particle Accelerator Conference (PAC) pp. 926 - 928
Main Authors Weber, S.V., Bach, H., Bodker, F., Hauge, N., Kristensen, J., Kruse, L., Madsen, S., Moller, S.P., Hertel, N., Nielsen, J.S., Boland, M.J., Dowd, R., LeBlanc, G.S., Spencer, M.J., Tan, Y.E.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2007
Subjects
Acceleration
Application specific processors
Australia
Current measurement
Energy measurement
Frequency measurement
Lattices
Linear particle accelerator
Magnets
Synchrotrons
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Summary:Danfysik has delivered a full-energy turn-key injection system for the Australian Synchrotron. The system consists of a 100 MeV linac, a low-energy transfer beamline, a 130 m circumference 3-GeV booster, and a high energy transfer beamline. The booster lattice was designed to have many cells with combined-function magnets (dipole, quadrupole and sextupole fields) in order to reach a very small emittance. The injection system has been commissioned and shown to deliver a beam with an emittance of less than 30 nm, and currents in single- and multi-bunch mode in excess of 0.5 and 5 mA, respectively, fulfilling the performance specifications. The repetition frequency is 1 Hz. Results from the commissioning of the system will be presented.
ISBN:1424409160
9781424409167
ISSN:1944-4680
2152-9582
DOI:10.1109/PAC.2007.4440937