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Title |
Page |
| THOACH02 |
Commissioning of the 500 MeV Injector for MAX-lab
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219 |
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- S. Werin, Å. Andersson, M. Bergqvist, M. Brandin, M. Demirkan, M. Eriksson, L.-J. Lindgren, L. Malmgren, H. Tarawneh, E.J. Wallén
MAX-lab, Lund
- B. Anderberg
AMACC, Uppsala
- G. Georgsson
Danfysik A/S, Jyllinge
- G. LeBlanc
ASP, Melbourne
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A 500 MeV new injector system for the storage rings MAX I, II and III have been installed during the winter 2003-4 at MAX-lab. The system consists of two linacs at 125 MeV each, using SLED, and a recirculating system such that the electrons pass the linacs twice, thus reaching a final energy of 500 MeV. The system is injected by a thermionic RF-gun. The commissioning of the complete system will be performed in the spring 2004.
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Video of talk
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Transparencies
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| THPKF024 |
A STATE-OF-THE-ART 3 GEV BOOSTER FOR ASP
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2314 |
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- G. Georgsson, N. Hauge
Danfysik A/S, Jyllinge
- S.P. Møller
ISA, Aarhus
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DANFYSIK A/S will build the full-energy booster for the Australian Synchrotron Project. The Booster will accelerate the beam from the injection energy of 100 MeV to a maximum of 3.0 GeV. The Booster shall accelerate either a single bunch or a bunch train up to 150 ns. The current accelerated to 3 GeV will be in excess of 0.5 and 5 mA for the two modes, respectively. The circumference of the Booster is 130.2 m, and the lattice will have four-fold super-symmetry with four straight sections for RF, injection, special diagnostics and extraction. The lattice is designed to have many cells with combined-function magnets (dipole, quadrupole and sextupole fields) in order to reach a very small emittance of around 30 nmrad. A small emittance is beneficial, in particular for top-up operation. Details of the lattice design and beam dynamics of the booster will be presented.
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| THPKF025 |
Commissioning Report of the CLS Booster Synchrotron
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2317 |
| |
- G. Georgsson
Danfysik A/S, Jyllinge
- L. Dallin
CLS, Saskatoon, Saskatchewan
- S.P. Møller
ISA, Aarhus
- L. Præstegaard
Århus Sygehus, Århus
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A full energy booster is produced and taken into operation for the Canadian Light Source. The Booster accelerates the beam from the injection energy of 200 MeV to a maximum of 2.9GeV. The results of the commissioning and the characterized beam parameters are reported
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| THPKF058 |
Experimental Experience with a Thermionic RF-gun
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2391 |
| |
- S. Werin, Å. Andersson, M. Bergqvist, M. Brandin, L. Malmgren, S. Werin
MAX-lab, Lund
- G. Georgsson
Danfysik A/S, Jyllinge
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An RF-gun structure developed at MAX-lab, and thus different from the most common BNL-structure, is in operation as a thermionic RF-gun at MAX-lab. The properties of the gun have been investigated. Especially aspects such as extractable energy range, emittance properties at various beamloading conditions and extracted current.
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| THPKF056 |
The MAX IV Facility
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2389 |
| |
- M. Eriksson, Å. Andersson, M. Bergqvist, M. Brandin, M. Demirkan, G. Georgsson, G. LeBlanc, L.-J. Lindgren, L. Malmgren, H. Tarawneh, E.J. Wallén, S. Werin
MAX-lab, Lund
- B. Anderberg
AMACC, Uppsala
- S. Biedron, S.V. Milton
ANL, Argonne, Illinois
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The MAX IV facility is a planned successor of the existing MAX facility. The planned facilty is described below. It consists of two new synchrotron storage rings operated at different electron energies to cover a broad spectral region and one linac injector. The linac injector is also meant to be operated as a FEL electron source. The two rings have similar low emittance lattices and are placed on top of each other to save space. A third UV light source, MAX III, is planned to be transfered to the new facility.
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