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Analog and Digitgal Simulations of Maxwellian Plasmas for Astrophysics [electronic resource]

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Bibliographic Details
Online Access: Online Access
Corporate Author: Lawrence Livermore National Laboratory (Researcher)
Format: Government Document Electronic eBook
Language:English
Published: Washington, D.C : Oak Ridge, Tenn. : United States. Dept. of Energy ; distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 2007.
Subjects:
Recombination.
Excitation.
Energy Spectra.
Ionization.
Computerized Simulation.
Abundance.
Plasma.
Astrophysics.
Approximations.
Simulation.
Electrons.
Electron Beams.
Atomic And Molecular Physics.
General And Miscellaneous.
Description
Abstract:Many astrophysical and laboratory plasmas possess Maxwell-Boltzmann (MB) electron energy distributions (EEDs). Interpreting or predicting the properties of these plasmas requires accurate knowledge of atomic processes such as radiative lifetimes, electron impact excitation and de-excitation, electron impact ionization, radiative recombination, dielectronic recombination, and charge transfer for thousands of levels or more. Plasma models cannot include all of the needed levels and atomic data. Hence approximations need to be made to make the models tractable. Here we report on an 'analog' technique we have developed for simulating a Maxwellian EED using an electron beam ion trap and review some recent results using this method. A subset of the atomic data needed for modeling Maxwellian plasmas relates to calculating the ionization balance. Accurate fractional abundance calculations for the different ionization stages of the various elements in the plasma are needed to reliably interpret or predict the properties of the gas. However, much of the atomic data needed for these calculations have not been generated using modern theoretical methods and are often highly suspect. Here we will also review our recent updating of the recommended atomic data for 'digital' computer simulations of MB plasmas in collisional ionization equilibrium (CIE), describe the changes relative to previously recommended CIE calculations, and discuss what further recombination and ionization data are needed to improve this latest set of recommended CIE calculations.
Item Description:Published through the Information Bridge: DOE Scientific and Technical Information.
02/24/2007.
"ucrl-jrnl-228470"
Canadian Journal of Physics, vol. 86, no. 1, January 1, 2008, pp. 209-216 86 1 ISSN 0008-4204; CJPHAD FT.
Brown, G V; Wong, K L; Kahn, S M; Gu, M F; Laming, J M; Beiersdorfer, P; Beck, B R; Savin, D W; Scofield, J H; Gorczyca, T W; Badnell, N R; Liedahl, D A; Bryans, P; Mitthumsiri, W.
Physical Description:PDF-file: 25 pages; size: 0.6 Mbytes.

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