Stark broadening of B I spectral lines within 2s22p - 2s2nd Spectral Series

AbstractDependences of electron and proton impact Stark width on the upper level ionization potential within different series of the neutral calcium spectral lines have been evaluated and discussed. The similar dependences previously found for the electron impact contribution were also obtained for the proton impact contribution to the Stark broadening. The emphasis is on the term structure influence on the studied Stark width dependences. The influence of the lower transition level and transition term is higher at low temperatures. After establishing these dependences, predictions were made for Stark widths of neutral calcium spectral lines not measured experimentally or calculated theoretically until now.

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On the Stark Broadening of Be II Spectral Lines

Data ◽

10.3390/data5040106 ◽

2020 ◽

Vol 5 (4) ◽

pp. 106

Author(s):

Milan S. Dimitrijević ◽

Magdalena Christova ◽

Sylvie Sahal-Bréchot

Keyword(s):

Perturbation Theory ◽

Plasma Diagnostics ◽

Spectral Lines ◽

Spectral Series ◽

Stark Broadening ◽

Stark Width

Calculated Stark broadening parameters of singly ionized beryllium spectral lines have been reported. Three spectral series have been studied within semiclassical perturbation theory. The plasma conditions cover temperatures from 2500 to 50,000 K and perturber densities 1011 cm−3 and 1013 cm−3. The influence of the temperature and the role of the perturbers (electrons, protons and He+ ions) on the Stark width and shift have been discussed. Results could be useful for plasma diagnostics in astrophysics, laboratory, and industrial plasmas.

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Stark Width Regularities within Beryllium Spectral Series

Publications of the Astronomical Society of Australia ◽

10.1071/as11014 ◽

2011 ◽

Vol 28 (4) ◽

pp. 281-289 ◽

Cited By ~ 7

Author(s):

I. P. Dojčinović ◽

I. Tapalaga ◽

J. Purić

Keyword(s):

Fine Structure ◽

Ionization Potential ◽

Electron Impact ◽

Spectral Lines ◽

Spectral Series ◽

Stark Broadening ◽

Influence Of Temperature ◽

Influence Of Temperature On ◽

Upper Level ◽

Stark Width

AbstractThe dependences of Stark width on the upper-level ionization potential within different series of the neutral beryllium spectral lines have been studied. The dependences previously observed for electron impact contribution to the Stark widths were also obtained for the proton impact contribution. The emphasis is on the fine structure influence on the studied Stark parameter dependences. The influence of temperature on the dependences of Stark width parameters has been demonstrated. The relations found can be used in both cases for prediction of new Stark broadening data, thus avoiding much more complicated procedures.

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The Semiclassical Limit of the Gailitis Formula Applied to Electron Impact Broadening of Spectral Lines of Ionized Atoms

Atoms ◽

10.3390/atoms9020029 ◽

2021 ◽

Vol 9 (2) ◽

pp. 29

Author(s):

Sylvie Sahal-Bréchot

Keyword(s):

Electron Impact ◽

Classical Limit ◽

Semiclassical Limit ◽

Spectral Lines ◽

Stark Broadening ◽

Feshbach Resonances

The present paper revisits the determination of the semi-classical limit of the Feshbach resonances which play a role in electron impact broadening (the so-called “Stark“ broadening) of isolated spectral lines of ionized atoms. The Gailitis approximation will be used. A few examples of results will be provided, showing the importance of the role of the Feshbach resonances.

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III. A critical study of spectral series.— Part I. The alkalies H and He

Philosophical Transactions of the Royal Society of London. Series A, Containing Papers of a Mathematical or Physical Character ◽

10.1098/rsta.1911.0003 ◽

1911 ◽

Vol 210 (459-470) ◽

pp. 57-111 ◽

Cited By ~ 1

Keyword(s):

Principal Series ◽

Atomic Weight ◽

Spectral Lines ◽

Critical Study ◽

Spectral Series ◽

Observational Error ◽

Present Communication ◽

Present Purpose

The following investigation was commenced some years ago, at a time when the discussion as to the atomic weight of Radium raised the question as to the dependence on their atomic weights of the wave-lengths of corresponding spectral lines of different elements of the same group. The arguments were necessarily vague and unconvincing in the absence of any exact knowledge as to the connection of wave-length with atomic weight, even supposing such connection existed. Our knowledge of series spectra is chiefly—one might say almost wholly—due to the sets of very exact measurements of Kayser and Runge, and of Runge and Paschen, supplemented by extensions to longer and shorter wave-lengths by Bergmann, Konen and Hagenbach, Lehmann, Ram age, and Saunders. These have been only quite recently added to by Paschen and by the remarkable extension of the Sodium Principal series up to 48 terms by Wood. A most valuable feature of Kayser’s work was the publication of possible errors of observation. This has rendered it possible to test with certainty whether any relation suggesting itself is true within limits of observational error or not. In fact, without this, the investigation, of which the present communication forms a first part, could not have been carried out. So far as the author knows, Saunders is the only other observer who has accompanied his observations with estimates of this kind. Others have given probable errors—practically estimates of the exactness with which they can repeat readings of that feature of a line which they take to be the centre—an estimate of little value for the present purpose. In deducing data from a set of lines it is thus possible to express their errors in terms of the original errors in the observations, and limits to the latter give limiting variations to the former. We therefore know with certainty what latitude in inferences is permissible, and are often enabled to say that such inference is not justifiable.

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