Small angle reconstruction of plasma luminosity for spherical tokamak

The plasma optical boundary reconstruction technique based on Hommen’s theory is promising for future tokamaks with high parameters. In this paper, we conduct detailed analysis and simulation verification to estimate the “logic loophole” of this technique. The finite-width effect and unpredictable errors will reduce the level of reliability of this technique, which lead to the “logic loophole”. Based on imaging theory, the photos of a virtual camera are simulated by integrating assumed luminous intensity of plasma. Based on Hommen’s theory, the plasma optical boundary is reconstructed from the photos. Comparing the reconstructed boundary with the one assumed, the “logic loophole” and its two effects are quantitatively estimated. The finite-width effect is related to the equivalent thickness of the luminous layer, which is generally about 2-4 cm but sometimes larger. The level of unpredictable errors is around 0.65 cm. The technique based on Hommen’s theory is generally reliable, but in some scenarios, finite-width effect and unpredictable errors have to be taken into consideration. The parameters of HL-2M are applied in this paper.

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Combined method for correction interval systems of linear algebraic equations

Баженов

Telnova

2021

jour

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The possibility of application of the interval analysis for data processing in the field of spectral analysis is considered. It is assumed that the data have interval uncertainty; therefore the problem of finding unknown concentrations is posed as a linear interval tolerance problem. The incompatibility of the interval system of linear algebraic equations is shown for the initial data using the apparatus of the recognizing functional. The relevance of the topic is due to the need for regularization of inconsistent interval systems of linear equations. The idea of S. P. Shary of a combined method for correcting a linear tolerance problem has been implemented. A new method for managing the solution by changing the linear algebraic equations interval system matrix elements radii has been developed. The research results can be used for example, to calculate the substance’s concentrations by measurement of the characteristic X-ray radiation.

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Small angle reconstruction of plasma luminosity for spherical tokamak

Cited by 3 publications

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Combined Method for the Correction of Interval Systems of Linear Algebraic Equations

Combined Method for the Correction of Interval Systems of Linear Algebraic Equations

Detailed analysis and simulation verification for reconstruction of plasma optical boundary with spectrometric technique on HL-2M tokamak

Combined method for correction interval systems of linear algebraic equations

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