The IACOB project

IF 5.4 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2024-07-17 DOI:10.1051/0004-6361/202348808

A. de Burgos, S. Simón-Díaz, M. A. Urbaneja, J. Puls

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Abstract

Context. Blue supergiants (BSGs) are key objects for understanding the evolution of massive stars, which play a crucial role in the evolution of galaxies. However, discrepancies between theoretical predictions and empirical observations have opened up important questions yet to be answered. Studying statistically significant and unbiased samples of these objects can help to improve the situation.Aims. We perform a homogeneous and comprehensive quantitative spectroscopic analysis of a large sample of Galactic luminous blue stars (a majority of which are BSGs) from the IACOB spectroscopic database, providing crucial parameters to refine and improve theoretical evolutionary models.Methods. We derived the projected rotational velocity (υ sin i) and macroturbulent broadening (υ_{mac_{) using IACOB-BROAD, which combines Fourier transform and line-profile fitting techniques. We compared high-quality optical spectra with state-of-the-art simulations of massive star atmospheres computed with the FASTWIND code. This comparison allowed us to derive effective temperatures (T_{eff_{), surface gravities (log 𝑔), microturbulences (ξ), surface abundances of silicon and helium, and to assess the relevance of stellar winds through a wind-strength parameter (log Q).Results. We provide estimates and associated uncertainties of the above-mentioned quantities for the largest sample of Galactic luminous O9 to B5 stars spectroscopically analyzed to date, comprising 527 targets. We find a clear drop in the relative number of stars at T_{eff_{≈ 21 kK, coinciding with a scarcity of fast rotating stars below that temperature. We speculate that this feature (roughly corresponding to B2 spectral type) might be roughly delineating the location of the empirical terminal-age main sequence in the mass range between 15 and 85 M_{⊙_{. By investigating the main characteristics of the υ sin i distribution of O stars and BSGs as a function of T_{eff_{, we propose that an efficient mechanism transporting angular momentum from the stellar core to the surface might be operating along the main sequence in the high-mass domain. We find correlations between ξ,υ_{mac_{and the spectroscopic luminosity 𝓛 (defined as T_{eff_{^{4^{/ g). We also find that no more than 20% of the stars in our sample have atmospheres clearly enriched in helium, and suggest that the origin of this specific subsample might be in binary evolution. We do not find clear empirical evidence of an increase in the wind strength over the wind bi-stability region toward lower T_{eff_.}}}}}}}}}}}}}}}}}

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背景。蓝超巨星（BSG）是了解大质量恒星演化的关键天体，在星系演化过程中起着至关重要的作用。然而，理论预测与经验观测之间的差异提出了一些尚待解答的重要问题。研究这些天体中具有统计意义且无偏见的样本有助于改善这种状况。我们对来自IACOB光谱数据库的大量银河系发光蓝星样本（其中大部分是BSG）进行了均匀而全面的定量光谱分析，为完善和改进理论演化模型提供了重要参数。我们利用 IACOB-BROAD，结合傅立叶变换和线轮廓拟合技术，得出了投影旋转速度（υ sin i）和大扰动展宽（υmac）。我们将高质量的光学光谱与用 FASTWIND 代码计算的最先进的大质量恒星大气模拟进行了比较。通过比较，我们得出了有效温度（Teff）、表面引力（log 𝑔）、微扰动（ξ）、硅和氦的表面丰度，并通过风强度参数（log Q）评估了恒星风的相关性。我们提供了迄今为止通过光谱分析的银河系发光 O9 到 B5 星的最大样本（包括 527 个目标）的上述数量的估计值和相关不确定性。我们发现在 Teff ≈ 21 kK 时恒星的相对数量明显下降，这与低于该温度的快速旋转恒星的稀缺性相吻合。我们推测，这一特征（大致对应于B2光谱型）可能大致划定了质量范围在15到85 M⊙之间的经验末龄主序的位置。通过研究O星和BSG的υ sin i分布作为Teff函数的主要特征，我们提出了一种有效的机制，将角动量从恒星内核传输到表面，这种机制可能在高质域的主序上运行。我们发现ξ,υmac 与光谱光度𝓛（定义为 Teff4 / g）之间存在相关性。我们还发现，样本中不超过 20% 的恒星的大气层明显富含氦，这表明这一特定子样本的起源可能是双星演化。我们并没有发现明确的经验证据表明，在风的双稳态区域，风的强度会随着 Teff 值的降低而增加。

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Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore
10.20

自引率
27.70%

发文量
2105

审稿时长
1-2 weeks

期刊介绍： Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.

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