Importance of Configuration Interaction for Accurate Atomic Data: Fluorescence Yields of K-Shell Vacancy, Lithium-like Ions | Zendy

T. W. Gorczyca | Zendy; I. Dumitriu | Zendy; M. F. Hasoğlu | Zendy; K. T. Korista | Zendy; N. R. Badnell | Zendy; D. W. Savin | Zendy; Steven T. Manson | Zendy

Open Access

Importance of Configuration Interaction for Accurate Atomic Data: Fluorescence Yields of K-Shell Vacancy, Lithium-like Ions

Author(s) -

T. W. Gorczyca,

I. Dumitriu,

M. F. Hasoğlu,

K. T. Korista,

N. R. Badnell,

D. W. Savin,

Steven T. Manson

Publication year - 2006

Publication title -

the astrophysical journal

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.376

H-Index - 489

eISSN - 1538-4357

pISSN - 0004-637X

DOI - 10.1086/501003

Subject(s) - physics , ion , lithium (medication) , atomic physics , ionization , supernova , vacancy defect , configuration interaction , electron shell , fluorescence , astrophysics , excited state , quantum mechanics , condensed matter physics , medicine , endocrinology

We demonstrate that the inclusion of configuration interaction (CI) results in significant values for the K-shell fluorescence yields of Li-like ions, which are zero in a single-configuration approach. Modeling codes for simulating supernova remnants under nonequilibrium ionization conditions or photoionized plasmas such as active galactic nuclei or X-ray binaries need to be updated accordingly. A two-parameter fitting formula for the fluorescence yields has been developed. The generality of important CI effects on atomic calculations is pointed out

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