4.3 Article

Data-driven model for divertor plasma detachment prediction

Journal

JOURNAL OF PLASMA PHYSICS
Volume 88, Issue 5, Pages -

Publisher

CAMBRIDGE UNIV PRESS
DOI: 10.1017/S002237782200085X

Keywords

fusion plasma; plasma confinement

Funding

  1. U.S. Department of Energy (US DOE) by Lawrence Livermore National Laboratory [DE-AC52-07NA27344, LLNL-JRNL-836030]

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We propose a data-driven surrogate model based on machine learning to predict divertor plasma detachment using the concept of latent feature space. The results show that our surrogate model can accurately predict detachment with a significant speed-up, indicating its potential for integrated tokamak design and plasma control.
We present a fast and accurate data-driven surrogate model for divertor plasma detachment prediction leveraging the latent feature space concept in machine learning research. Our approach involves constructing and training two neural networks: an autoencoder that finds a proper latent space representation (LSR) of plasma state by compressing the multi-modal diagnostic measurements and a forward model using multi-layer perception (MLP) that projects a set of plasma control parameters to its corresponding LSR. By combining the forward model and the decoder network from autoencoder, this new data-driven surrogate model is able to predict a consistent set of diagnostic measurements based on a few plasma control parameters. In order to ensure that the crucial detachment physics is correctly captured, highly efficient 1D UEDGE model is used to generate training and validation data in this study. The benchmark between the data-driven surrogate model and UEDGE simulations shows that our surrogate model is capable of providing accurate detachment prediction (usually within a few per cent relative error margin) but with at least four orders of magnitude speed-up, indicating that performance-wise, it has the potential to facilitate integrated tokamak design and plasma control. Comparing with the widely used two-point model and/or two-point model formatting, the new data-driven model features additional detachment front prediction and can be easily extended to incorporate richer physics. This study demonstrates that the complicated divertor and scrape-off-layer plasma state has a low-dimensional representation in latent space. Understanding plasma dynamics in latent space and utilising this knowledge could open a new path for plasma control in magnetic fusion energy research.

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