Towards ML-Based Diagnostics of Laser–Plasma Interactions

Yury Rodimkov; Shikha Bhadoria; Valentin Volokitin; Evgeny Efimenko; Alexey Polovinkin; Thomas Blackburn; Mattias Marklund; Arkady Gonoskov; Iosif Meyerov

doi:10.3390/s21216982

Sensors (Oct 2021)

Towards ML-Based Diagnostics of Laser–Plasma Interactions

Yury Rodimkov,
Shikha Bhadoria,
Valentin Volokitin,
Evgeny Efimenko,
Alexey Polovinkin,
Thomas Blackburn,
Mattias Marklund,
Arkady Gonoskov,
Iosif Meyerov

Affiliations

Yury Rodimkov: Department of Mathematical Software and Supercomputing Technologies, Lobachevsky University, 603950 Nizhni Novgorod, Russia
Shikha Bhadoria: Department of Physics, University of Gothenburg, SE-41296 Gothenburg, Sweden
Valentin Volokitin: Department of Mathematical Software and Supercomputing Technologies, Lobachevsky University, 603950 Nizhni Novgorod, Russia
Evgeny Efimenko: Institute of Applied Physics of the Russian Academy of Sciences, 603950 Nizhni Novgorod, Russia
Alexey Polovinkin: Adv Learning Systems, TDATA, Intel, Chandler, AZ 85226, USA
Thomas Blackburn: Department of Physics, University of Gothenburg, SE-41296 Gothenburg, Sweden
Mattias Marklund: Department of Physics, University of Gothenburg, SE-41296 Gothenburg, Sweden
Arkady Gonoskov: Department of Mathematical Software and Supercomputing Technologies, Lobachevsky University, 603950 Nizhni Novgorod, Russia
Iosif Meyerov: Department of Mathematical Software and Supercomputing Technologies, Lobachevsky University, 603950 Nizhni Novgorod, Russia

DOI: https://doi.org/10.3390/s21216982
Journal volume & issue: Vol. 21, no. 21
p. 6982

Abstract

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The power of machine learning (ML) in feature identification can be harnessed for determining quantities in experiments that are difficult to measure directly. However, if an ML model is trained on simulated data, rather than experimental results, the differences between the two can pose an obstacle to reliable data extraction. Here we report on the development of ML-based diagnostics for experiments on high-intensity laser–matter interactions. With the intention to accentuate robust, physics-governed features, the presence of which is tolerant to such differences, we test the application of principal component analysis, data augmentation and training with data that has superimposed noise of gradually increasing amplitude. Using synthetic data of simulated experiments, we identify that the approach based on the noise of increasing amplitude yields the most accurate ML models and thus is likely to be useful in similar projects on ML-based diagnostics.

Published in Sensors

ISSN: 1424-8220 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Chemical technology
Website: http://www.mdpi.com/journal/sensors

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