Analysis of charge-exchange spectroscopy data by combining genetic and Gauss–Newton algorithms

The temperature and rotation velocity profile of ions in a tokamak are two characteristic parameters that reflect the plasma׳s behavior. Measurement of the two parameters relies on analyzing an active charge exchange spectroscopy diagnostic. However, a very challenging problem in such a diagnostic i...

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Bibliographic Details
Published in:Journal of quantitative spectroscopy & radiative transfer 2015-11, Vol.166, p.74-80
Main Authors: Qian, Ma, Haoyi, Zuo, Yanling, Wei, Liang, Liu, Wenjin, Chen, Xiaoxue, He, Shirong, Luo
Format: Article
Language:English
Subjects:
Active charge exchange spectroscopy
Diagnostic of hot fusion plasmas
GAGN
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Summary:The temperature and rotation velocity profile of ions in a tokamak are two characteristic parameters that reflect the plasma׳s behavior. Measurement of the two parameters relies on analyzing an active charge exchange spectroscopy diagnostic. However, a very challenging problem in such a diagnostic is the existence of interfering spectral lines, which can mislead the spectrum analysis process. This work proposes combining a genetic algorithm with the Gauss–Newton method (GAGN) to address this problem. Using this GAGN algorithm, we can effectively distinguish between the useful spectrum line and the interfering spectral lines within the spectroscopic output. The accuracy and stability of this algorithm are verified using both numerical simulation and actual measurements. •This paper presents an alternative computational approach to fit charge exchange spectra.•The GN is embed into GA, forming a new algorithm GAGN.•The GAGN algorithm can get the precise value without noise, but GA and GN cannot.
ISSN:0022-4073
1879-1352
DOI:10.1016/j.jqsrt.2015.07.014