Effect of Opacity on Neon-like Argon, and Krypton Line Intensity Ratios in Static, and Cylindrically Imploding High-Density Plasmas.
スポンサーリンク
概要
- 論文の詳細を見る
In connection with X-ray lasers, theoretical line intensity ratios of neon (Ne)-like argon (ArIX) and krypton (KrXXVII) ions in high energy density plasmas have been investigated considering 27 levels of the 2s<FONT SIZE="-1"><SUP>2</SUP></FONT>2p<FONT SIZE="-1"><SUP>6</SUP></FONT>, 2s<FONT SIZE="-1"><SUP>2</SUP></FONT>2p<FONT SIZE="-1"><SUP>5</SUP></FONT>3s, 2s<FONT SIZE="-1"><SUP>2</SUP></FONT>2p<FONT SIZE="-1"><SUP>5</SUP></FONT>3p, and 2s<FONT SIZE="-1"><SUP>2</SUP></FONT>2p<FONT SIZE="-1"><SUP>5</SUP></FONT>3d configurations. It was found that some line intensity ratios are sensitive to the electron density, the electron temperature, and also opacity in the interest regime of ArIX and KrXXVII X-ray lasers. Our attention is devoted to studying the opacity effects of the important radiative transitions for the lasing condition, namely; those of the 3d <FONT SIZE="-1"><SUP>1</SUP></FONT>P<FONT SIZE="-1"><SUB>1</SUB></FONT>-2p<FONT SIZE="-1"><SUP>6</SUP></FONT> <FONT SIZE="-1"><SUP>1</SUP></FONT>S<FONT SIZE="-1"><SUB>0</SUB></FONT>, 3d <FONT SIZE="-1"><SUP>3</SUP></FONT>D<FONT SIZE="-1"><SUB>1</SUB></FONT>-2p<FONT SIZE="-1"><SUP>6</SUP></FONT> <FONT SIZE="-1"><SUP>1</SUP></FONT>S<FONT SIZE="-1"><SUB>0</SUB></FONT>, 3d <FONT SIZE="-1"><SUP>3</SUP></FONT>P<FONT SIZE="-1"><SUB>1</SUB></FONT>-2p<FONT SIZE="-1"><SUP>6</SUP></FONT> <FONT SIZE="-1"><SUP>1</SUP></FONT>S<FONT SIZE="-1"><SUB>0</SUB></FONT>, 3s <FONT SIZE="-1"><SUP>3</SUP></FONT>P<FONT SIZE="-1"><SUB>1</SUB></FONT>-2p<FONT SIZE="-1"><SUP>6</SUP></FONT> <FONT SIZE="-1"><SUP>1</SUP></FONT>S<FONT SIZE="-1"><SUB>0</SUB></FONT>, and 3s <FONT SIZE="-1"><SUP>1</SUP></FONT>P<FONT SIZE="-1"><SUB>1</SUB></FONT>-2p<FONT SIZE="-1"><SUP>6</SUP></FONT> <FONT SIZE="-1"><SUP>1</SUP></FONT>S<FONT SIZE="-1"><SUB>0</SUB></FONT> transitions on the line intensity ratios in both static and cylindrically imploding plasmas under the Sobolev approximation that includes the effect of the large velocity gradient.
- 公益社団法人 応用物理学会の論文
公益社団法人 応用物理学会 | 論文
- Electron Channelling Effect in an Al–Fe–Cu Quasicrystal
- Construction and Performance of a Large-Aperture Wire-Chamber Spectrometer for Pion Scattering Experiments at KEK
- Effect of Plasma Injection on Cold Wall Type MHD Generator
- Development of Scanning μ-RHEED Microscopy for Imaging Polycrystal Grain Structure in LSI
- Boundary Layer Cooling Effect on Semi-Hot Wall Type MHD Channel