太阳和部分 A-F 型恒星中的非 LTE 氮丰度

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Astronomy Letters-A Journal of Astronomy and Space Astrophysics Pub Date : 2024-10-16 DOI:10.1134/S1063773724700245
L. I. Mashonkina, T. A. Ryabchikova
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引用次数: 0

摘要

我们利用实验室测量和 N I 原子结构计算中预测的能级以及最新的原子数据构建了一个新的 N I 模型原子,用于计算辐射和碰撞转变率。太阳丰度((log\varepsilon_{\odot,\textrm{N}}\text{(1D NLTE)}=7.92\pm 0.03\)是在经典的一维(1D,MARCS)太阳模型大气中,通过合成光谱法,并考虑到局部热力学平衡的偏离(非 LTE 效应),根据 N I 线确定的。通过应用Amarsi等人(2020)的三维修正,我们得到了太阳的(\log\varepsilon_{odot,\textrm{N}}(\textrm{NLTE}+\textrm{3D})=7.88\pm 0.03\).基于高分辨率光谱,我们推导出了11颗大气参数可靠的未演化A-F型恒星的非LTE氮丰度。非 LTE 导致 N I 线增强,非 LTE 效应随着有效温度的升高而增强。对于每颗恒星来说,与 LTE 相比,偏离 LTE 导致均方根丰度误差减小。对于表面正常的A星,非LTE消除了LTE分析中获得的相对于太阳氮丰度的增强。布型恒星HD 172167(织女星)也具有接近太阳的氮丰度。四颗Am星的氮丰度表现不一,从氮丰度不足(\textrm{[N/H]}=-0.44\)到氮丰度过剩(\textrm{[N/H]}=0.39\)。太阳和表面正常的 A 型恒星的氮丰度与星际气体和早期 B 型恒星的氮丰度在误差范围内是一致的。
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Non-LTE Nitrogen Abundances in the Sun and Selected A–F-Type Stars

A new N I model atom has been constructed using the energy levels known from laboratory measurements and predicted in N I atomic structure calculations and up-to-date atomic data for calculating the radiative and collisional transition rates. The solar abundance \(\log\varepsilon_{\odot,\textrm{N}}\text{(1D NLTE)}=7.92\pm 0.03\) has been determined from N I lines by the synthetic spectrum method with a classical one-dimensional (1D, MARCS) solar model atmosphere and by taking into account the departures from local thermodynamic equilibrium (non-LTE effects). By applying the 3D corrections of Amarsi et al. (2020), we have obtained \(\log\varepsilon_{\odot,\textrm{N}}(\textrm{NLTE}+\textrm{3D})=7.88\pm 0.03\) for the Sun. Based on high-resolution spectra, we have derived the non-LTE nitrogen abundances for 11 unevolved A–F-type stars with reliably determined atmospheric parameters. Non-LTE leads to a strengthening of N I lines, and the non-LTE effects grow with increasing effective temperature. For each of the stars the departures from LTE lead to a decrease in the root-mean-square (rms) abundance error compared to the LTE case. For superficially normal A stars non-LTE removes the enhancements relative to the solar nitrogen abundance obtained in an LTE analysis. The \(\lambda\) Boo-type star HD 172167 (Vega) also has a nearly solar nitrogen abundance. Four Am stars exhibit a scatter, from a nitrogen underabundance with \(\textrm{[N/H]}=-0.44\) to a nitrogen overabundance with \(\textrm{[N/H]}=0.39\). The nitrogen abundances for the Sun and superficially normal A stars are consistent within the error limits with the nitrogen abundance in the interstellar gas and early B-type stars.

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来源期刊
CiteScore
1.70
自引率
22.20%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Astronomy Letters is an international peer reviewed journal that publishes the results of original research on all aspects of modern astronomy and astrophysics including high energy astrophysics, cosmology, space astronomy, theoretical astrophysics, radio astronomy, extragalactic astronomy, stellar astronomy, and investigation of the Solar system.
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