dorsal/arxiv
View SchemaElectron density diagnostic potential of Ar XIV soft X-ray emission lines
| Authors | G. Y. Liang, G. Zhao, J. L. Zeng, J. R. Shi |
|---|---|
| Categories | |
| ArXiv ID | physics/0606118 |
| URL | https://arxiv.org/abs/physics/0606118 |
| DOI | 10.1016/j.jqsrt.2006.02.029 |
Abstract
Theoretical electron density-sensitive line ratios $R_1 - R_6$ of Ar XIV soft X-ray emission lines are presented. We found that these line ratios are sensitive to electron density $n_e$, and the ratio $R_1$ is insensitive to electron temperature $T_e$. Recent work has shown that accurate atomic data, such as electron impact excitation rates, is very important for reliable determination of the electron density of laboratory and astrophysical plasmas. Present work indicates that the maximum discrepancy of line ratios introduced from different atomic data calculated with distorted wave and R-matrix approximations, is up to 18% in the range of $n_e=10^{9-13}$cm$^{-3}$. By comparison of these line ratios with experiment results carried out in electron beam ion trap (EBIT-II), electron density of the laboratory plasma is diagnosed, and a consistent result is obtained from $R_1$, $R_2$ and $R_3$. Our result is in agreement with that diagnosed by Chen et al using triplet of N VI. A relative higher diagnosed electron density from $R_2$ is due to its weak sensitivity to electron temperature. A better consistency at lower $T_e$ indicates that temperature of the laboratory plasma is lower than log$T_e$(K)=6.5. Comparison between the measured and theoretical ratios reveals that 32.014~\AA line is weakly blended by lines from other Ar ions, while 30.344~\AA line is strongly contaminated.
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"abstract": "Theoretical electron density-sensitive line ratios $R_1 - R_6$ of Ar XIV soft\nX-ray emission lines are presented. We found that these line ratios are\nsensitive to electron density $n_e$, and the ratio $R_1$ is insensitive to\nelectron temperature $T_e$. Recent work has shown that accurate atomic data,\nsuch as electron impact excitation rates, is very important for reliable\ndetermination of the electron density of laboratory and astrophysical plasmas.\nPresent work indicates that the maximum discrepancy of line ratios introduced\nfrom different atomic data calculated with distorted wave and R-matrix\napproximations, is up to 18% in the range of $n_e=10^{9-13}$cm$^{-3}$. By\ncomparison of these line ratios with experiment results carried out in electron\nbeam ion trap (EBIT-II), electron density of the laboratory plasma is\ndiagnosed, and a consistent result is obtained from $R_1$, $R_2$ and $R_3$. Our\nresult is in agreement with that diagnosed by Chen et al using triplet of N VI.\nA relative higher diagnosed electron density from $R_2$ is due to its weak\nsensitivity to electron temperature. A better consistency at lower $T_e$\nindicates that temperature of the laboratory plasma is lower than\nlog$T_e$(K)=6.5. Comparison between the measured and theoretical ratios reveals\nthat 32.014~\\AA line is weakly blended by lines from other Ar ions, while\n30.344~\\AA line is strongly contaminated.",
"arxiv_id": "physics/0606118",
"authors": [
"G. Y. Liang",
"G. Zhao",
"J. L. Zeng",
"J. R. Shi"
],
"categories": [
"physics.plasm-ph",
"physics.atom-ph"
],
"doi": "10.1016/j.jqsrt.2006.02.029",
"title": "Electron density diagnostic potential of Ar XIV soft X-ray emission lines",
"url": "https://arxiv.org/abs/physics/0606118"
},
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