19–24 May 2024
Music City Center
US/Central timezone

Towards latent space evolution of spatiotemporal dynamics of six-dimensional phase space of charged particle beams

MOPS75
20 May 2024, 16:00
2h
Blues (MCC Exhibit Hall A)

Blues

MCC Exhibit Hall A

Poster Presentation MC5.D13 Machine Learning Monday Poster Session

Speaker

Mahindra Rautela (Los Alamos National Laboratory)

Description

Addressing the charged particle beam diagnostics in accelerators poses a formidable challenge, demanding high-fidelity simulations in limited computational time. Machine learning (ML) based surrogate models have emerged as a promising tool for non-invasive charged particle beam diagnostics. Trained ML models can make predictions much faster than computationally expensive physics simulations. In this work, we have proposed a temporally structured variational autoencoder model to autoregressively forecast the spatiotemporal dynamics of the 15 unique 2D projections of 6D phase space of charged particle beam as it travels through the LANSCE linear accelerator. In the model, VAE embeds the phase space projections into a lower dimensional latent space. A long-short-term memory network then learns the temporal correlations in the latent space. The trained network can evolve the phase space projections across further modules provided the first few modules as inputs. The model predicts all the projections across different modules with low mean squared error and high structural similarity index.

Funding Agency

Laboratory Directed Research & Development Grant (Los Alamos National Laboratory)

Region represented North America
Paper preparation format LaTeX

Primary author

Mahindra Rautela (Los Alamos National Laboratory)

Co-authors

Alexander Scheinker (Los Alamos National Laboratory) Alan Williams (Los Alamos National Laboratory)

Presentation materials

There are no materials yet.