A. V. Demura scite author profile

Experimental measurements of the center of the H_{beta} Stark profile on three different installations have been done to study its asymmetry in wide ranges of electron density, temperature, and plasma conditions. Theoretical calculations for the analysis of experimental results have been performed using the standard theory and computer simulations and included separately quadrupolar and quadratic Stark effects. Earlier experimental results and theoretical calculations of other authors have been reviewed as well. The experimental results are well reproduced by the calculations at high and moderate densities.

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Physical Models of Plasma Microfield

Demura

2010

International Journal of Spectroscopy

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The present review is devoted to the current status of microfield notion that was so successful and profitable for experimental and theoretical studies of plasma in gas discharges and thermonuclear modeling installations for many decades. The physical aspects and ideas of the main generally used microfield models are described and analyzed in detail. The review highlights the remaining vague and unclear questions in the subject.

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Nonlinear interference effects in the Stark broadening of dipople forbidden lines of highly charged ions in plasmas

Anufrienko¹,

Godunov²,

Demura³

et al. 1990

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Asymmetry ofHβStark profiles in T-tube hydrogen plasma

et al. 2005

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The whole Balmer H(beta) line profiles are studied in detail experimentally in the T-tube discharge for the wide range of plasma parameters. Besides the common one, two additional parameters are introduced to characterize the asymmetry behavior of the experimental Stark profiles with the reference point chosen in the center of the line. The experimental data are analyzed and benchmarked versus the simple theoretical model based on the effects of microfield nonuniformity and electron impact shifts.

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Influence of Microfield Directionality on Line Shapes

Calisti

Demura

et al. 2014

Atoms

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In the framework of the Spectral Line Shapes in Plasmas Code Comparison Workshop (SLSP), large discrepancies appeared between the different approaches to account for ion motion effects in spectral line shape calculations. For a better understanding of these effects, in the second edition of the SLSP in August, 2013, two cases were dedicated to the study of the ionic field directionality on line shapes. In this paper, the effects of the direction and magnitude fluctuations are separately analyzed. The effects of two variants of electric field models, (i) a pure rotating field with constant magnitude and (ii) a time-dependent magnitude field in a given direction, together with the effects of the time-dependent ionic field on shapes of the He II Lyman-α and-β lines for different densities and temperatures, are discussed.

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A. V. Demura

Measurements ofHβStark central asymmetry and its analysis through standard theory and computer simulations

Physical Models of Plasma Microfield

Nonlinear interference effects in the Stark broadening of dipople forbidden lines of highly charged ions in plasmas

Asymmetry ofHβStark profiles in T-tube hydrogen plasma

Influence of Microfield Directionality on Line Shapes

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