| Paper |
Title |
Other Keywords |
Page |
| POS01 |
Status of the ALBA Project
|
vacuum, lattice, booster, synchrotron |
1 |
| |
- M. Belgroune, E. Al-Dmour, G. Benedetti, J. Bordas, E. Boter, B. Calcagno, J. Campmany, D. Carles, C. Colldelram, M. Cornelis, M. Custido, M. De Lima, D. Einfeld, A. Falone, S. Ferrer, H. Hassanzadegan, U. Iriso, J. Klora, R. Martin, L. Miralles, M. Muñoz, L. Nikitina, I. Nikitine, J. Pasquaud, X. Permanyer, M. Pont, F. Pérez, J. Redo, F. Rey, L. Ribo, C. Ruget, F. Sanchez, R. Trivino
CELLS, Bellaterra (Cerdanyola del Vallès)
- D. Bertwistle, T. F. Günzel, J. Marcos, A. Olmos, M. Q. Quispe, A. Salom
ALBA, Bellaterra
| |
The storage ring ALBA is a 3 GeV third generation synchrotron light source under construction in Barcelona (Spain). ALBA is optimized for high photon flux density with a beam emittance of 4.5 nm·rad and a large number of available straight sections for Insertion Devices (3x8 m, 12x4.2 m) in a relatively small circumference of 268.8 m. Top-up operation is foreseen from the start. The injector complex for ALBA will consist of a 100 MeV linac and a full energy booster with a roughly small emittance of 9 nm·rad. The design of the lattice and of the major components of the accelerator complex (linac and booster, magnets, RF system, vacuum system) has been completed and the procurement procedure has started for the large majority of them. The construction of the building is planned to start in the first half of 2006 and the commissioning of the storage ring is foreseen for the end of 2008. This report offers an overview of the status of the project.
|
|
|
|
| PLT14 |
Short Radiation Pulses in Storage Rings
|
radiation, electron, laser, synchrotron |
14 |
| |
- S. Khan
Uni HH, Hamburg
| |
Funding: Funded by the Bundesminister für Bildung und Forschung and by the Land Berlin
The time resolution of experiments with synchrotron radiation, presently limited by a typical bunch length of 30–100 ps in electron storage rings, can be improved by making the bunches shorter (e.g. reducing the momentum-compaction factor or increasing the rf gradient) or by establishing a temporal-transverse correlation (e.g. transverse rf deflection or fs-laser slicing). Several methods, their present status and their respective merits or shortcomings are discussed.
|
|
|
Slides
|
|
|
| PLT31 |
Summary of WG1 – Storage Ring Based Radiation Sources
|
emittance, radiation, lattice, photon |
18 |
| |
|
|
| WG101 |
Beam Physics Issues in CANDLE Synchrotron Light Source Project
|
ion, impedance, brightness, photon |
21 |
| |
- V. M. Tsakanov, M. Ivanyan, Y. L. Martirosyan
CANDLE, Yerevan
| |
CANDLE (Center for the Advancement of Natural Discoveries using Light Emission) is a 3 GeV synchrotron light source project in Republic of Armenia. The summary of the facility beam physics study will be given, including the optimal beta performance in insertion devices, the machine impedances, instabilities cures, beam lifetime, non-linear and fringe field effects evaluation.
|
|
|
|
Slides
|
|
|