Spectral Line Shapes in Plasmas

doi:10.3390/books978-3-906980-82-9

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Keywords

Stark broadening; isolated lines; impact approximation; dips in spectral line profiles; diagnostic of Langmuir waves amplitude; diagnostic of electron density in plasmas; method for measuring charge exchange rates; tokamak; fusion reactor plasmas; Balmer spectral lines shapes; neutral atoms; velocity distribution function; electron-impact widths and shifts; (N + 1)-electron colliding systems; line shapes; Stark broadening; impact approximation; isolated lines; semiclassical perturbation picture; Stark broadening; hydrogen plasmas; numerical simulations; collision operators; spectral line shapes in plasmas; ion dynamics effects; ion microfield fluctuations; spectral line shapes; Green’s function; T-matrix; molecular dynamics simulations; microfield distribution function; plasma diagnostics; Stark broadening; line shapes; plasmas; numerical simulations; models; carbon pellet ablation; plasma spectroscopy; LHD; Stark/Zeeman broadening; line-shape codes; atomic physics; foundations of Stark broadening theory; density matrix; coupling between population and spectral distribution; microfield fluctuations caused by its rotations; MD simulations; Stark broadening; isolated lines; impact approximation; n/a

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Spectral Line Shapes in Plasmas

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June 2015

227 pages

ISBN978-3-906980-81-2 (Hardback)
ISBN978-3-906980-82-9 (PDF)

https://doi.org/10.3390/books978-3-906980-82-9

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This is a Reprint of the Special Issue Spectral Line Shapes in Plasmas that was published in

Physical Sciences

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Spectral Line Shapes in Plasmas

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