DocumentCode
1401369
Title
Theory of High-Energy-Photon K-Shell Recombination Continuum Radiation From 
-Pinch Plasmas
Author
Velikovich, Alexander L. ; Apruzese, John P. ; Davis, Jack ; Thornhill, J. Ward
Author_Institution
Plasma Phys. Div., Naval Res. Lab., Washington, DC, USA
Volume
38
Issue
4
fYear
2010
fDate
4/1/2010 12:00:00 AM
Firstpage
618
Lastpage
625
Abstract
This paper presents explicit analytical formulas relating the X-ray yields in various energy bins of the free-bound recombination continuum to the mass, temperature, dimensions, and confinement time of the plasma participating in the K-shell emission. Estimates based on these formulas support the idea that K-shell recombination continuum radiation of argon, titanium, and iron can be a viable alternative to the K-shell line radiation of higher atomic number ions for advancing the operation of Z-pinch plasma radiation sources into the warm X-ray photon energy range of 10-20 keV. The potential of the refurbished Z accelerator for generating multikilojoule radiation yields in this energy range via recombination continuum is assessed.
Keywords
Z pinch; argon; iron; plasma X-ray sources; plasma accelerators; plasma confinement; plasma sources; plasma temperature; titanium; Ar; Fe; K-shell emission; K-shell line radiation; Ti; X-ray photon; Z accelerator; confinement time; electron volt energy 10 keV to 20 keV; free-bound recombination continuum; high-energy-photon K-shell recombination continuum radiation; higher atomic number ions; multikilojoule radiation yields; plasma dimensions; plasma mass; plasma radiation sources; plasma temperature; z-pinch plasmas; K-shell radiation; X-ray production; plasma pinch; recombination continuum;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2009.2038917
Filename
5404413
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