1. A quantitative evaluation of various deconvolution methods and their applications in the deconvolution of plasma spectra
- Author
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Bo Lu, Xiaoguang Wang, Hongming Zhang, Yuejiang Shi, Yongcai Shen, Fudi Wang, Yanwei Xiong, Jia Fu, and Yingying Li
- Subjects
Blind deconvolution ,Tokamak ,Condensed Matter Physics ,Atomic and Molecular Physics, and Optics ,Spectral line ,law.invention ,Rate of convergence ,Approximation error ,law ,Maximum a posteriori estimation ,Minification ,Deconvolution ,Algorithm ,Mathematical Physics ,Mathematics - Abstract
A quantitative evaluation of various deconvolution methods and their applications in processing plasma emitted spectra was performed. The iterative deconvolution algorithms evaluated here include Jansson's method, Richardson–Lucy's method, the maximum a posteriori method and Gold's method. The evaluation criteria include minimization of the sum of squared errors and the sum of squared relative error of parameters, and their rate of convergence. After comparing deconvolved results using these methods, it was concluded that Jansson's and Gold's methods were able to provide good profiles that are visually close to the original spectra. Additionally, Gold's method generally gives the best results when considering all the criteria above. The applications to the actual plasma spectra obtained from the EAST tokamak with these methods are also presented in this paper. The deconvolution results with Gold's and Jansson's methods show that the effects of instruments can be satisfactorily eliminated and clear spectra are recovered.
- Published
- 2013
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