太阳和太阳类似星 HD 76151 的近红外光谱:编制Y、J、H和K波段的大量谱线列表

Sena Aleyna Şentürk, Timur Şahin, Ferhat Güney, Selçuk Bilir and Mahmut Marışmak
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引用次数: 0

摘要

确定恒星的物理本质需要精确了解其恒星大气参数,包括有效温度、表面引力和金属度。本研究提出了一个新的原子线表,涵盖了铁(Fe)和α元素(Ca、Mg、Ti、Si)的宽光谱范围(1-2.5 μm;YJHK 波段),以改进利用近红外光谱测定恒星参数的工作。我们强调了现有谱线列表的局限性,这主要是由于阿帕奇角天文台银河演化实验 DR17 中电离铁谱线的振荡器强度不一致造成的。利用太阳及其太阳类似物 HD 76151 的高分辨率和高质量盘心近红外光谱对该谱线表进行了验证。通过光谱分析,结合光学和近红外光线表计算出 HD 76151 的有效温度为 5790 ± 170 K,表面重力为 4.35 ± 0.18 cgs,金属丰度为 0.24 ± 0.09 dex,微扰动速度为 km s-1。将为 HD 76151 计算的大气模型参数与 PARSEC 等时线进行比较,得出恒星质量为 ,半径为 ,年龄为 Gyr。利用盖亚天体测量数据和光谱数据对HD 76151进行的运动学和动力学轨道分析表明,这颗恒星诞生于太阳圈内一个富含金属的区域,是薄盘群体的一员。因此,动态轨道分析证实了该恒星的光谱分析所反映的略微富含金属的性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Near-infrared Spectroscopy of the Sun and Solar Analog Star HD 76151: Compiling an Extensive Line List in the Y, J, H, and K Bands
Determining the physical nature of a star requires precise knowledge of its stellar atmospheric parameters, including effective temperature, surface gravity, and metallicity. This study presents a new atomic line list covering a broad spectral range (1–2.5 μm; YJHK bands) for iron (Fe) and α-elements (Ca, Mg, Ti, Si) to improve stellar parameter determination using near-infrared (NIR) spectroscopy. We highlight the limitations of existing line lists, stemming primarily from inconsistencies in oscillator strengths for ionized iron lines within the Apache Point Observatory Galactic Evolution Experiment DR17. The line list was validated using the high-resolution and high-quality disk-center NIR spectra of the Sun and its solar analog HD 76151. As a result of the spectroscopic analyses, the effective temperature of HD 76151 was calculated as 5790 ± 170 K, surface gravity as 4.35 ± 0.18 cgs, metal abundance as 0.24 ± 0.09 dex, and microturbulence velocity of km s−1 by combining the optical and NIR line lists. A comparison of the model atmospheric parameters calculated for HD 76151 with the PARSEC isochrones resulted in a stellar mass of , radius , and an age of Gyr. For the first time, kinematic and dynamical orbital analyses of HD 76151 using a combination of Gaia astrometric and spectroscopic data showed that the star was born in a metal-rich region within the solar circle and is a member of the thin disk population. Thus, the slightly metal-rich nature of the star, as reflected in its spectroscopic analysis, was confirmed by dynamical orbital analysis.
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