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Atomic Transition Probabilities for Transitions of Si i and Si ii and the Silicon Abundances of Several Very Metal-poor Stars <sup>∗</sup>

E. A. Den Hartog, J. E. Lawler, C. Sneden, Ian U. Roederer, J. J. Cowan

2023The Astrophysical Journal Supplement Series13 citationsDOIOpen Access PDF

Abstract

Abstract We report new measurements of branching fractions for 20 UV and blue lines in the spectrum of neutral silicon (Si i ) originating in the 3 s 2 3 p 4 s 3 P o 1,2 , 1 P o 1 , and 3 s 3 p 3 1 D o 1,2 upper levels. Transitions studied include both strong, nearly pure LS multiplets as well as very weak spin-forbidden transitions connected to these upper levels. We also report a new branching fraction measurement of the 4 P 1/2 – 2 P o 1/2,3/2 intercombination lines in the spectrum of singly ionized silicon (Si ii ). The weak spin-forbidden lines of Si i and Si ii provide a stringent test on recent theoretical calculations, to which we make comparison. The branching fractions from this study are combined with previously reported radiative lifetimes to yield transition probabilities and log( gf ) values for these lines. We apply these new measurements to abundance determinations in five metal-poor stars.

Topics & Concepts

SiliconStarsBranching fractionIonizationPhysicsAtomic physicsBranching (polymer chemistry)Radiative transferSpectral lineTransition metalYield (engineering)MetalIonAnalytical Chemistry (journal)AstrophysicsChemistryAstronomyOrganic chemistryQuantum mechanicsCatalysisChromatographyBiochemistryThermodynamicsOptoelectronicsStellar, planetary, and galactic studiesAstrophysics and Star Formation StudiesAstronomy and Astrophysical Research
Atomic Transition Probabilities for Transitions of Si i and Si ii and the Silicon Abundances of Several Very Metal-poor Stars <sup>∗</sup> | Litcius