A model of ATL ground motion for storage rings

Author

Wolski, A. ; Walker, N.J.

Author_Institution

LBNL, Berkeley, CA, USA

Volume

4

fYear

2003

fDate

12-16 May 2003

Firstpage

2396

Abstract

Low emittance electron storage rings, such as those used in third generation light sources or linear collider damping rings, rely for their performance on highly stable alignment of the lattice components. Even if all vibration and environmental noise sources could be suppressed, diffusive ground motion will lead to orbit drift and emittance growth. Understanding such motion is important for predicting the performance of a planned accelerator and designing a correction system. A description (known as the ATL model) of ground motion over relatively long time scales has been developed and has become the standard for studies of the long straight beamlines in linear colliders. Here, we show how the model may be developed to include beamlines of any geometry. We apply the model to the NLC and TESLA damping rings, to compare their relative stability under different conditions.

Keywords

beam handling techniques; damping; electron accelerators; linear colliders; particle beam stability; physics computing; storage rings; ATL ground motion; NLC damping rings; TESLA damping rings; correction system; diffusive ground motion; emittance growth; environmental noise sources; geometry; highly stable alignment; lattice components; linear collider damping rings; long straight beamlines; long time scales; low emittance electron storage rings; orbit drift; relative stability; third generation light sources; vibration noise sources; Colliding beam accelerators; Damping; Electron emission; Geometry; Lattices; Light sources; Solid modeling; Standards development; Storage rings; Working environment noise;

fLanguage

English

Publisher

ieee

Conference_Titel

Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the

ISSN

1063-3928

Print_ISBN

0-7803-7738-9

Type

conf

DOI

10.1109/PAC.2003.1289132

Filename

1289132