Physics – General Physics
Scientific paper
Jun 1979
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1979phrva..19.2421g&link_type=abstract
Physical Review A - General Physics, 3rd Series, vol. 19, June 1979, p. 2421-2432. NASA-NSF-sponsored research.
Physics
General Physics
85
Dense Plasmas, Lyman Spectra, Plasma Spectra, Stark Effect, Aluminum, Carbon, Coulomb Collisions, Electron Scattering, Ionic Collisions, Magnesium, Neon, Oxygen, Quantum Mechanics, Scattering Cross Sections, Tables (Data)
Scientific paper
The frequency distributions of the first six Lyman lines of hydrogenlike carbon, oxygen, neon, magnesium, aluminum, and silicon ions broadened by the local fields of both ions and electrons are calculated for dense plasmas. The electron collisions are treated by an impact theory allowing (approximately) for level splittings caused by the ion fields, finite duration of the collisions, and screening of the electron fields. These calculations are fully quantum mechanical and include the full Coulomb interaction. Ion effects are calculated in the quasistatic, linear-Stark-effect approximation, using distribution functions of Hooper and Tighe which include correlation and shielding effects. Theoretical uncertainties from the various approximations are estimated, and the scaling of the profiles with density, temperature, and nuclear charge is discussed. A correction for the effects caused by low-frequency field fluctuations is suggested.
Blaha M.
Griem Hans R.
Kepple Paul C.
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