Formation of Zr I and II lines under non-LTE conditions of stellar atmospheres
A. Velichko, L. Mashonkina, H. Nilsson
TL;DR
This study investigates non-LTE line formation of zirconium ions in stellar atmospheres, revealing significant abundance corrections and providing a consistent Zr abundance measurement for the Sun.
Contribution
It presents a comprehensive non-LTE model atom for Zr I and Zr II, improving zirconium abundance determinations in stellar atmospheres.
Findings
Non-LTE effects cause positive abundance corrections up to 0.34 dex.
Zr I lines are depleted due to ultraviolet overionization.
Zr I and Zr II lines yield consistent abundances in non-LTE analysis.
Abstract
The non-local thermodynaic equilibrium (non-LTE) line formation for the two ions of zirconium is considered through a range of spectral types when the Zr abundance varies from the solar value down to [Zr/H] = -3. The model atom was built using 148 energy levels of Zr I, 772 levels of Zr II, and the ground state of Zr III. It was shown that the main non-LTE mechnism for the minority species Zr I is ultraviolet overionization. Non-LTE leads to systematically depleted total absorption in the Zr I lines and positive abundance corrections, reaching to 0.33 dex for the solar metallicity models. The excited levels of Zr II are overpopulated relative to their thermodynamic equilibrium populations in the line formation layers due to radiative pumping from the low-excitation levels. As a result, the line source function exceeds the Planck function leading to weakening the Zr II lines and positive…
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