Add to ORKGThe joint distribution of the electric microfield and its longitudinal derivative is required for the calculation of line profiles for the He-like ions in very dense plasmas. We used a molecular dynamics code to compute exact distributions in single- and multi-component plasmas, and then we investigated various analytical approximations to these results. We found that a simplified, two-nearest-neighbor scheme leads to surprisingly accurate distribution functions. Our results are illustrated by sample profiles for Ne/sup +8/ and Ar/sup +16/ resonance lines
We present analytical results for spectral line profiles of atoms and polar molecules in magnetized ...
International audienceThe standard static-ion impact electron theory of line broadening is assessed ...
International audienceNew semi-classical collision functions are used to compute the inelastic contr...
International audienceA very fast method to account for charged particle dynamics effects in calcula...
Context. Stark broadening of the 447.1 line of neutral helium in a weakly coupled plasma has been st...
New tables of Stark broadened hydrogen Lyman, Balmer and Paschen lines are presented for a wide rang...
Context. The Stark broadening of the spectral lines of the wavelengths 501.6, 667.8, 728.1, 388.9, 5...
Abstract: The effect of spectral line broadening under influence of ion microfield (Stark ...
Broadband approximate expressions for calculating the broadening of the spectral lines of hydrogenli...
Context. We studied the Stark broadening of the He I 492.2 nm line, which is sometimes use...
Modeling the Stark broadening of spectral lines in plasmas is a complex problem. The problem has a l...
The Stark effect in fusion plasmas is calculated for quasi-static F fields corresponding to a neares...
19th International Conference on Atomic Processes in Plasmas (APiP), Campus Les Cordeliers, Paris, F...
Hydrogen line shapes broadened by Stark effects are calculated for a dense hydrogen plasma created b...
Producción CientíficaSpectral line shapes of neutral helium 3889 Å(23S–33P) transition line are calc...
We present analytical results for spectral line profiles of atoms and polar molecules in magnetized ...
International audienceThe standard static-ion impact electron theory of line broadening is assessed ...
International audienceNew semi-classical collision functions are used to compute the inelastic contr...
International audienceA very fast method to account for charged particle dynamics effects in calcula...
Context. Stark broadening of the 447.1 line of neutral helium in a weakly coupled plasma has been st...
New tables of Stark broadened hydrogen Lyman, Balmer and Paschen lines are presented for a wide rang...
Context. The Stark broadening of the spectral lines of the wavelengths 501.6, 667.8, 728.1, 388.9, 5...
Abstract: The effect of spectral line broadening under influence of ion microfield (Stark ...
Broadband approximate expressions for calculating the broadening of the spectral lines of hydrogenli...
Context. We studied the Stark broadening of the He I 492.2 nm line, which is sometimes use...
Modeling the Stark broadening of spectral lines in plasmas is a complex problem. The problem has a l...
The Stark effect in fusion plasmas is calculated for quasi-static F fields corresponding to a neares...
19th International Conference on Atomic Processes in Plasmas (APiP), Campus Les Cordeliers, Paris, F...
Hydrogen line shapes broadened by Stark effects are calculated for a dense hydrogen plasma created b...
Producción CientíficaSpectral line shapes of neutral helium 3889 Å(23S–33P) transition line are calc...
We present analytical results for spectral line profiles of atoms and polar molecules in magnetized ...
International audienceThe standard static-ion impact electron theory of line broadening is assessed ...
International audienceNew semi-classical collision functions are used to compute the inelastic contr...