Title :
Slow ground motion modelling of DIAMOND
Author_Institution :
Daresbury Laboratory, ASTeC, Warrington, UK
Abstract :
The need for high stability in third generation light sources has produced strict requirements on the design of the foundations. The specification for the concrete floor stability is a critical task, which can have a major cost impact. A careful assessment of the effects of slow ground motion on the accelerator is therefore required. This paper presents the results of simulations using various ground motion models for the DIAMOND storage ring and the booster synchrotron. The modelling is implemented in flexible manner through the use of a Mathematica to MAD interface. This interface provides various high level functions such as access to an SVD algorithm, which provides effective correction of the closed orbit distortions, the implementation of motion on girders and the statistical analysis and graphical presentation of results.
Keywords :
booster injectors; electron accelerators; electron beams; particle beam injection; particle beam stability; physics computing; storage rings; DIAMOND; MAD interface; SVD algorithm; booster synchrotron injector; closed orbit distortions; girders; graphical presentation; high level functions; slow ground motion modelling; stability; statistical analysis; storage ring; third generation light sources; Concrete; Costs; Floors; Light sources; Mathematical model; Motion analysis; Stability; Storage rings; Structural beams; Synchrotrons;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289079
