Spectroscopic study of EUV and SXR transitions of Cu XIX with plasma parameters

Spectroscopic study of EUV and SXR transitions of Cu XIX with plasma parameters

Extensive and elaborate theoretical computations of Cu XIX have been performed by employing multi-configuration Dirac-Fock (MCDF) method. We have presented energy levels and radiative data such as, transition wavelengths, radiative rates, oscillator strengths and line strengths for electric dipole (...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) Vol. 156; pp. 174 - 192
Main Authors: Singh, A.K., Dimri, Mayank, Dawra, Dishu, Jha, Alok K.S., Verma, Nupur, Mohan, Man
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-03-2019
Elsevier BV
Subjects:
Configuration interaction
Electric dipoles
Electron density
Energy levels
Extreme Ultraviolet
Iterative methods
Lifetime
Line intensity
Magnetic dipoles
Mathematical analysis
Oscillator strengths
Photons
Plasma temperature
Quadrupoles
Quantum electrodynamics
Soft x rays
Soft X-ray
Transitions wavelength
Wavelengths
Soft X-ray
Line intensity
Lifetime
Energy levels
Transitions wavelength
Extreme Ultraviolet
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Summary:Extensive and elaborate theoretical computations of Cu XIX have been performed by employing multi-configuration Dirac-Fock (MCDF) method. We have presented energy levels and radiative data such as, transition wavelengths, radiative rates, oscillator strengths and line strengths for electric dipole (E1) transitions in Na-like Cu. For other types of transitions, namely magnetic dipole (M1), electric quadrupole (E2), and magnetic quadrupole (M2), only the A-values are listed. We have also discussed the importance and the effect of valence-valence (VV) and core-valence (CV) correlations on the excitation energies in graphical as well as in tabular form. The accuracies of the presented levels, wavelengths, transition rates and lifetimes are assessed by comparing them to available experimental and other theoretical results. Analogous calculations have been carried out by using Flexible Atomic Code (FAC) based on self-consistent Dirac-Fock-Slater iteration method. QED corrections due to vacuum polarization and self-energy effects, and Breit correction due to the exchange of virtual photons between two electrons are fully considered and their effects on the energy levels are studied graphically. The fine-structure energy levels have also been reported by using the Configuration Interaction (CIV3) technique. An intercomparison among three independent calculations helps us in assessing the credibility and integrity of our reported data. Additionally, we have shown the variation of the line intensity ratios and electron density with plasma temperature graphically for Cu XIX. We have also identified Extreme Ultraviolet (EUV) and Soft X-ray (SXR) transitions and believe that our reported results may be beneficial in space and laboratory plasma research. •Results for 396 fine-structure energy levels for 1s22s22p6nl (n = 3–20) are given.•Extensive and accurate radiative data for Cu XIX are reported.•MCDF, FAC and CIV3 methods are employed to perform the computations.•Variation of plasma parameters with temperature for optically thin plasma.•Identification of EUV and SXR spectral lines for dipole & quadrupole transitions.
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2018.11.002