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Use of machine learning for a helium line intensity ratio method in Magnum-PSI

Author
Abstract

Optical emission spectroscopy (OES) of helium (He) line intensities has been used to measure the electron density, n e, and temperature, T e, in various plasma devices. In this study, a neural network with five hidden layers is introduced to model the relation between the OES data and n e/T e from laser Thomson scattering in the linear plasma device Magnum-PSI and compared to multiple regression analysis. It is shown that the neural network reduces the residual errors of prediction values (n e and T e) less than half those of the multiple regression analysis in the ranges of 2 × 10 18<n e<8×10 20m−3 and 0.1<T e<4 eV. We checked two different data splitting methods for training and validation data, i.e., with and without considering the unit of discharge. A comparison of the splitting methods suggests that the residual error will decrease to ∼10% even for a new discharge data when accumulating a sufficient data set.

Year of Publication
2022
Journal
Nuclear Materials and Energy
Volume
33
Number of Pages
101281
Date Published
10/2022
DOI
10.1016/j.nme.2022.101281
PId
fb734d3e627bf8673ee2267ce96e51ab
Alternate Journal
Nucl. Mater. Energy
Label
OA
Journal Article
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