Speaker
Thomas Günzel
(ALBA Synchrotron (Spain))
Description
In synchrotron light sources, the non-linear magnetic fields and Touschek scattering limit the stability of electron motion, determining the dynamic aperture (DA) and the momentum acceptance (MA). Optimizing both the DA and the MA is crucial to maximize injection efficiency and the beam's lifetime, but it is numerically expensive. We implement recently developed algorithms that speed-up their calculation in CPUs: Flood Fill and Fast Touschek Tracking (FTT). Applying these to the analysis of the ALBA II lattice and comparing them to the existing methods, we obtain rigorous and faster results using Flood Fill, and ones with a slight loss of accuracy for FTT.
Region represented | Europe |
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Paper preparation format | LaTeX |
Author
Elia Serra-Carbonell
(Barcelona Autonomous University)
Co-authors
Oscar Blanco-García
(ALBA Synchrotron (Spain))
Thomas Günzel
(ALBA Synchrotron (Spain))