Title :
Implementation of dynamic misalignments and luminosity stabilization
Author :
Hendrickson, L. ; Himel, T. ; Raubenheimer, T.O. ; Seryi, A. ; Tenenbaum, P. ; Woodley, M. ; Schulte, D.
Author_Institution :
Stanford Linear Accelerator Center, CA, USA
Abstract :
To fully characterize the luminosity performance of a linear collider, it is important to simulate the effects of ground motion as well as the beam-beam feedback and other stabilization systems planned to compensate for that motion. The linear collider simulation codes have recently been extended to include both ground motion models and stabilization systems to support the work of the International Linear Collider Technical Review Committee (TRC). This paper discusses the implementation details and the optimization strategies for interpulse beam-beam feedback.
Keywords :
beam handling equipment; beam handling techniques; linear colliders; physics computing; International Linear Collider Technical Review Committee; dynamic misalignment; ground motion model; interpulse beam-beam feedback optimization strategy; linear collider simulation code; luminosity stabilization; stabilization system; Computer languages; Cultural differences; Engines; Feedback; Ground support; Linear particle accelerator; MATLAB; Mathematical model; Tracking; Transfer functions;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289258
