Speaker
Alexandre Loulergue
(Synchrotron Soleil)
Description
The SOLEIL II storage ring project will require an injected beam with small transverse and longitudinal sizes. To meet this requirement, a new multi-bend 14BA Higher-Order Achromat lattice has been de-signed to reduce the booster emittance from the pre-sent 140 nm.rad to 5 nm.rad @ 2.75 GeV. In this paper we report the progress in the booster beam dynamics studies, considering the linac energy increase from 110 to 150 MeV, and all errors coming from injection mag-nets, injected beam parameters, booster magnets and RF system, whereas the resistive wall study is reported elsewhere. The progress in designing the magnets, the vacuum system, the ramped power supplies, and the diagnostics is presented.
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Primary author
Marie-Agnès Tordeux
(Synchrotron Soleil)
Co-authors
Alexandre Loulergue
(Synchrotron Soleil)
Alexandre Moutardier
(Synchrotron Soleil)
Alexis Gamelin
(Synchrotron Soleil)
Antoine Le Jollec
(Synchrotron Soleil)
Charles Kitegi
(Synchrotron Soleil)
Eric Dupuy
(Synchrotron Soleil)
Fabrice Marteau
(Synchrotron Soleil)
Fernand Ribeiro
(Synchrotron Soleil)
Francois Bouvet
(Synchrotron Soleil)
Jean-Pierre Pollina
(Synchrotron Soleil)
Laurent Nadolski
(Synchrotron Soleil)
Marie Labat
(Synchrotron Soleil)
Massamba Diop
(Synchrotron Soleil)
Nicolas Béchu
(Synchrotron Soleil)
Nicolas Hubert
(Synchrotron Soleil)
Patrick Alexandre
(Synchrotron Soleil)
Robert Lopes
(Synchrotron Soleil)
Serge Thoraud
(Synchrotron Soleil)
Thomas Souske
(Synchrotron Soleil)
Vincent Leroux
(Synchrotron Soleil)
Watanyu Foosang
(Synchrotron Soleil)
Zhenghe Bai
(University of Science and Technology of China)