Speaker
Description
The design, optimization and possibly operation of future particle colliders such as the Future Circular Collider (FCC) and the Electron-Ion Collider (EIC) require advanced, flexible, and collaborative modeling frameworks to address complex collective effects in beam dynamics. Central to this effort for the FCC is Xsuite—a Python-based modular toolkit combining symplectic particle tracking with detailed models of synchrotron radiation, impedances, space charge, electron cloud, beam-beam interactions, and feedback systems. Xsuite’s contributions to FCC studies have been substantial, and its potential extension to EIC opens new avenues for collaborative research. This platform fosters international cooperation by enabling researchers across continents to share models, simulation results, and expertise seamlessly. Such synergy facilitates high-fidelity exploration of beam dynamics phenomena critical to machine performance, including beam collective effects and luminosity degradation, with computational efficiency on both CPU and GPU architectures. By harmonizing modeling efforts for FCC and EIC, the platform can contribute to a coherent understanding of beam dynamics across different collider designs. We discuss ongoing and potential progress in adapting and extending Xsuite for joint FCC and EIC studies, emphasizing the advantages of collaborative workflows and the transformative impact these tools can have on the design and operation of next-generation colliders.
Footnotes
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