Electron Impact Excitation of Ge-like Te20+–Cd16+ Ions

Malker, Pooja; Sharma, Lalita

doi:10.3390/atoms10010017

Cited by 2 publications

(1 citation statement)

References 22 publications

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“…Collision strengths have been calculated (and tabulated) for a number of light, medium, and heavy ions, cf. [52,53] and-more recently-also for fine-structure-resolved, low-lying excitations of ions with a complex shell structure, such as germanium-like [54] or even Co 2+ ions with an open 3d shell [55]. Despite the need for such data for radiation transfer or non-LTE simulations, the good number of notations for specifying the energies, shell coupling, and quantum numbers of the ionic levels involved, as well as different averaging procedures have surely hampered the use and comparison of collision strengths in the literature.…”

Section: Level-and Energy-dependent Collision Strengths For Multiply ...mentioning

confidence: 99%

Collision Strengths of Astrophysical Interest for Multiply Charged Ions

Fritzsche

Jiao

Wang

et al. 2023

Atoms

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The electron impact excitation and ionization processes are crucial for modeling the spectra of different astrophysical objects, from atmospheres of late-type stars to remnants of supernovae and up to the light emission from neutron star mergers, to name just a few. Despite their significance, however, little is known quantitatively about these processes for low- and medium-impact energies of, say, Ekin≲5000 eV of the free incident electron. To further explore the role of impact excitation, we here expanded Jac, the Jena Atomic Calculator, to the computation of distorted wave collision strengths for fine-structure-resolved, as well as configuration-averaged transitions. While we excluded the formation of dielectronic resonances, these tools can be readily applied for ions with a complex shell structure and by including the major relativistic contributions to these strengths. Detailed computations of the collision strengths are shown and explained for the impact excitation of lithium- and chlorine-like ions. When compared with other, well-correlated methods, good agreement was found, and hence, these tools will support studies of effective collision strengths for a wide range of electron impact energies, levels, and ionic charge states.

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Section: Level-and Energy-dependent Collision Strengths For Multiply ...mentioning

confidence: 99%

Collision Strengths of Astrophysical Interest for Multiply Charged Ions

Fritzsche

Jiao

Wang

et al. 2023

Atoms

View full text Add to dashboard Cite

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A Collisional-Radiative Model for Kr III Ions

Rathi,

Sharma

2024

Atoms

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A collisional radiative model for Kr III in the ultraviolet regime is developed. For this purpose, atomic parameters for 4s24p4, 4s4p5, 4s24p3nl, and 4s24p35d configurations with n ranging from 5 to 7 and l=s,p, using the multiconfiguration Dirac–Hatree–Fock method are calculated. The effects of Breit and radiative quantum electrodynamic corrections are also included. Electron impact excitation cross-sections from the ground state, along with four metastable states arising from the 4s24p4 configuration to all fine structure levels of interest, are calculated using the relativistic distorted wave method. The reliability of the model is tested by comparing the predicted results with the previous measurements.

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Electron Impact Excitation of Ge-like Te20+–Cd16+ Ions

Cited by 2 publications

References 22 publications

Collision Strengths of Astrophysical Interest for Multiply Charged Ions

Collision Strengths of Astrophysical Interest for Multiply Charged Ions

A Collisional-Radiative Model for Kr III Ions

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