7–12 May 2023
Venice, Italy
Europe/Zurich timezone

Machine learning for combined scalar and spectral longitudinal phase space reconstruction

THPL019
11 May 2023, 16:30
2h
Sala Laguna

Sala Laguna

Poster Presentation MC6.A27: Machine Learning and Digital Twin Modelling Thursday Poster Session

Speaker

Jan Kaiser (Deutsches Elektronen-Synchrotron)

Description

Longitudinal beam diagnostics are a useful aid during tuning of particle accelerators, but acquiring them usually requires destructive and time intensive measurements. In order to provide such diagnostics non-destructively, computational methods allow for the development of virtual diagnostics. Existing Fourier-based reconstruction methods for longitudinal current reconstruction, tend to be slow and struggle to reliably reconstruct phase information. We propose using an artificial neural network trained on data from a start-to-end beam dynamics simulation to combine scalar and spectral information in order to infer the longitudinal phase space of the electron beam. We demonstrate that our method can reconstruct longitudinal beam diagnostics accurately and provide the reconstructed data with adaptive resolution. Deployed to control rooms today, our method can help human operators reduce tuning times, improve repeatability and achieve pioneering working points. In the future, ML-based virtual diagnostics will help the deployment of feedbacks and autonomous tuning methods, working toward the ultimate goal of autonomous particle accelerators.

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Primary author

Jan Kaiser (Deutsches Elektronen-Synchrotron)

Co-authors

Annika Eichler (Deutsches Elektronen-Synchrotron) Sergey Tomin (Deutsches Elektronen-Synchrotron) Zihan Zhu (Deutsches Elektronen-Synchrotron)

Presentation materials

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