Speaker
Qing Ji
(Lawrence Berkeley National Laboratory)
Description
We present recent impedance modeling studies of the kicker systems developed for the Advanced Light Source Upgrade (ALS-U), including ferrite-loaded kickers, stripline-type fast kickers, and septa. The modeling supports the injection/extraction systems to ensure beam stability in the accumulator and storage rings. In addition, it provides guidance for component fabrication and offline testing by incorporating realistic factors such as mechanical tolerances and assembly specifications.
Funding Agency
WORK SUPPORTED BY THE DIRECTOR, OFFICE OF SCIENCE, OF-
FICE OF BASIC ENERGY SCIENCES, OF THE U.S. DEPARTMENT
OF ENERGY UNDER CONTRACT NO. DE-AC02-05CH11231.
| Region represented | America |
|---|---|
| Paper preparation format | LaTeX |
Author
Dan Wang
(Lawrence Berkeley National Laboratory)
Co-authors
Christoph Steier
(Lawrence Berkeley National Laboratory)
Marco Venturini
(Lawrence Berkeley National Laboratory)
Nathan Millard
(Lawrence Berkeley National Laboratory)
Qing Ji
(Lawrence Berkeley National Laboratory)
Ramiro Bereguer
(Lawrence Berkeley National Laboratory)
Sam Moy
(Lawrence Berkeley National Laboratory)
Sol Omolayo
(Lawrence Berkeley National Laboratory)
Tianhuan Luo
(Lawrence Berkeley National Laboratory)
Tom Miller
(Lawrence Berkeley National Laboratory)
Tom Swain
(Lawrence Berkeley National Laboratory)
William Waldron
(Lawrence Berkeley National Laboratory)
