Density diagnostic of highly ionized samarium laser produced plasma using Ni-like spatially resolved spectra

E. Louzon; Z. Henis; I. Levy; G. Hurvitz; Y. Ehrlich; M. Frankel; S. Maman; E. Raicher; A. Malka; P. Mandelbaum; A. Zigler

doi:10.1017/S0263034610000765

Density diagnostic of highly ionized samarium laser produced plasma using Ni-like spatially resolved spectra

E. Louzon^*, Z. Henis, I. Levy, G. Hurvitz, Y. Ehrlich, M. Frankel, S. Maman, E. Raicher, A. Malka, P. Mandelbaum, A. Zigler

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Detailed spectroscopic identification and analysis of lines emitted by Ni-like ions may infer on plasma parameters, such as electron density, temperature, and ionization state. Spatially, resolved X-ray spectra of samarium laser produced plasma were recorded in the 7 to 10 Å wavelength range. Measured line intensity ratios of Ni-like 3d-5f, 3p-4d, 3p-4s, and 3s-4p transitions were used for electron density diagnostic as a function of the distance from the target. Calculations using Hebrew University Lawrence Livermore Atomic Code show that these ratios are not very sensitive to the electron temperature in the range from 500 to 1000 eV. Self-absorption of some lines is found to be important at electron densities higher than 10 ²¹cm^-3. The inferred ranges of electron density and temperature are found to be consistent with results of hydrodynamic simulations and models of ionization in plasma.

Original language	English
Pages (from-to)	61-67
Number of pages	7
Journal	Laser and Particle Beams
Volume	29
Issue number	1
DOIs	https://doi.org/10.1017/S0263034610000765
State	Published - May 2011

Keywords

Laser
Plasma
X-ray diagnostic
X-ray spectrum

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10.1017/S0263034610000765

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@article{13b8896ddf8f4853a785d8a752f43506,

title = "Density diagnostic of highly ionized samarium laser produced plasma using Ni-like spatially resolved spectra",

abstract = "Detailed spectroscopic identification and analysis of lines emitted by Ni-like ions may infer on plasma parameters, such as electron density, temperature, and ionization state. Spatially, resolved X-ray spectra of samarium laser produced plasma were recorded in the 7 to 10 {\AA} wavelength range. Measured line intensity ratios of Ni-like 3d-5f, 3p-4d, 3p-4s, and 3s-4p transitions were used for electron density diagnostic as a function of the distance from the target. Calculations using Hebrew University Lawrence Livermore Atomic Code show that these ratios are not very sensitive to the electron temperature in the range from 500 to 1000 eV. Self-absorption of some lines is found to be important at electron densities higher than 10 21cm-3. The inferred ranges of electron density and temperature are found to be consistent with results of hydrodynamic simulations and models of ionization in plasma.",

keywords = "Laser, Plasma, X-ray diagnostic, X-ray spectrum",

author = "E. Louzon and Z. Henis and I. Levy and G. Hurvitz and Y. Ehrlich and M. Frankel and S. Maman and E. Raicher and A. Malka and P. Mandelbaum and A. Zigler",

year = "2011",

month = may,

doi = "10.1017/S0263034610000765",

language = "אנגלית",

volume = "29",

pages = "61--67",

journal = "Laser and Particle Beams",

issn = "0263-0346",

publisher = "Hindawi",

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TY - JOUR

T1 - Density diagnostic of highly ionized samarium laser produced plasma using Ni-like spatially resolved spectra

AU - Louzon, E.

AU - Henis, Z.

AU - Levy, I.

AU - Hurvitz, G.

AU - Ehrlich, Y.

AU - Frankel, M.

AU - Maman, S.

AU - Raicher, E.

AU - Malka, A.

AU - Mandelbaum, P.

AU - Zigler, A.

PY - 2011/5

Y1 - 2011/5

N2 - Detailed spectroscopic identification and analysis of lines emitted by Ni-like ions may infer on plasma parameters, such as electron density, temperature, and ionization state. Spatially, resolved X-ray spectra of samarium laser produced plasma were recorded in the 7 to 10 Å wavelength range. Measured line intensity ratios of Ni-like 3d-5f, 3p-4d, 3p-4s, and 3s-4p transitions were used for electron density diagnostic as a function of the distance from the target. Calculations using Hebrew University Lawrence Livermore Atomic Code show that these ratios are not very sensitive to the electron temperature in the range from 500 to 1000 eV. Self-absorption of some lines is found to be important at electron densities higher than 10 21cm-3. The inferred ranges of electron density and temperature are found to be consistent with results of hydrodynamic simulations and models of ionization in plasma.

AB - Detailed spectroscopic identification and analysis of lines emitted by Ni-like ions may infer on plasma parameters, such as electron density, temperature, and ionization state. Spatially, resolved X-ray spectra of samarium laser produced plasma were recorded in the 7 to 10 Å wavelength range. Measured line intensity ratios of Ni-like 3d-5f, 3p-4d, 3p-4s, and 3s-4p transitions were used for electron density diagnostic as a function of the distance from the target. Calculations using Hebrew University Lawrence Livermore Atomic Code show that these ratios are not very sensitive to the electron temperature in the range from 500 to 1000 eV. Self-absorption of some lines is found to be important at electron densities higher than 10 21cm-3. The inferred ranges of electron density and temperature are found to be consistent with results of hydrodynamic simulations and models of ionization in plasma.

KW - Laser

KW - Plasma

KW - X-ray diagnostic

KW - X-ray spectrum

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SN - 0263-0346

VL - 29

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EP - 67

JO - Laser and Particle Beams

JF - Laser and Particle Beams

IS - 1

ER -

Density diagnostic of highly ionized samarium laser produced plasma using Ni-like spatially resolved spectra

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Keywords

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