Title :
Effects of dynamic misalignments and feedback performance on luminosity stability in linear colliders
Author :
Seryi, A. ; Hendrickson, L. ; Raubenheimer, T.O. ; Tenenbaum, P. ; Woodley, M. ; Schulte, D.
Author_Institution :
Linear Accel. Center, Stanford Univ., CA, USA
Abstract :
The performance of high energy linear colliders depends critically on the stability with which they can maintain the collisions of nanometer-size beams. Ground motion and vibration, among other effects, will produce dynamic misalignments which can offset the beams at the collision point. A system of train-to-train and intra-train beam-beam feedbacks, possibly combined with additional beam-independent active systems, is planned to compensate for these effects. Extensive simulation studies of ground motion and luminosity stabilization have been performed as part of the work of the International Linear Collider Technical Review Committee. This paper presents a comparison of the expected performance for TESLA, JLC/NLC and CLIC under various assumptions about feedbacks and the level of ground motion.
Keywords :
linear colliders; particle beam diagnostics; particle beam dynamics; particle beam stability; dynamic misalignments; feedback performance; ground motion; intra-train beam-beam feedbacks; linear colliders; luminosity stability; luminosity stabilization; nanometer-size beams; train-to-train feedbacks; vibration; Colliding beam devices; Detectors; Feedback; Frequency; Magnetic field measurement; Mathematical model; Stability; Structural beams; Superluminescent diodes; Vibration measurement;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289003
