DIII-D's role as a national user facility in enabling the commercialization of fusion energy

Buttery, R. J.; Abrams, T.; Casali, L.; Greenfield, C. M.; Groebner, R.; Holcomb, C. T.; Hong, S.; Jaervinen, A.; Leonard, A.; McLean, A.; Osborne, T.; Pace, D. C.; Park, J. M.; Petty, C. C.; Shafer, M.; Sips, A. C. C.; ,

doi:10.1063/5.0176729

Physics of Plasmas

2023

DOI: 10.1063/5.0176729

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DIII-D's role as a national user facility in enabling the commercialization of fusion energy

R. J. Buttery,

T. Abrams,

L. Casali

et al.

Abstract: The path to fusion in the United States requires partnership between public and private sector. While the private sector provides the vigor to take some of the major steps necessary, there is a depth of expertise and capability in the public sector that is vital to resolving feasible approaches. As an open national user facility, DIII-D provides a crucial testbed to develop the required new technologies and approaches in relevant conditions. It has unparalleled potential to meet this challenge, thanks to its e… Show more

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Using convolutional neural networks to detect edge localized modes in DIII-D from Doppler backscattering measurements

Teo,

Hall-Chen,

Barada

et al. 2024

Review of Scientific Instruments

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In H-mode tokamak plasmas, the plasma is sometimes ejected beyond the edge transport barrier. These events are known as edge localized modes (ELMs). ELMs cause a loss of energy and damage the vessel walls. Understanding the physics of ELMs, and by extension, how to detect and mitigate them, is an important challenge. In this paper, we focus on two diagnostic methods—deuterium-alpha (Dα) spectroscopy and Doppler backscattering (DBS). The former detects ELMs by measuring Balmer alpha emission, while the latter uses microwave radiation to probe the plasma. DBS has the advantages of having a higher temporal resolution and robustness to damage. These advantages of DBS diagnostic may be beneficial for future operational tokamaks, and thus, data processing techniques for DBS should be developed in preparation. In sight of this, we explore the training of neural networks to detect ELMs from DBS data, using Dα data as the ground truth. With shots found in the DIII-D database, the model is trained to classify each time step based on the occurrence of an ELM event. The results are promising. When tested on shots similar to those used for training, the model is capable of consistently achieving a high f1-score of 0.93. This score is a performance metric for imbalanced datasets that ranges between 0 and 1. We evaluate the performance of our neural network on a variety of ELMs in different high confinement regimes (grassy ELM, RMP mitigated, and wide-pedestal), finding broad applicability. Beyond ELMs, our work demonstrates the wider feasibility of applying neural networks to data from DBS diagnostic.

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Using convolutional neural networks to detect edge localized modes in DIII-D from Doppler backscattering measurements

Teo,

Hall-Chen,

Barada

et al. 2024

Review of Scientific Instruments

View full text Add to dashboard Cite

show abstract

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DIII-D's role as a national user facility in enabling the commercialization of fusion energy

Cited by 1 publication

References 50 publications

Using convolutional neural networks to detect edge localized modes in DIII-D from Doppler backscattering measurements

Using convolutional neural networks to detect edge localized modes in DIII-D from Doppler backscattering measurements

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