Using Neural Network Models to Estimate Stellar Ages from Lithium Equivalent Widths: An EAGLES Expansion

arXiv - PHYS - Solar and Stellar Astrophysics Pub Date : 2024-09-11 DOI:arxiv-2409.07523

George Weaver, Robin D. Jeffries, Richard J. Jackson

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Abstract

We present an Artificial Neural Network (ANN) model of photospheric lithium depletion in cool stars (3000 < Teff / K < 6500), producing estimates and probability distributions of age from Li I 6708A equivalent width (LiEW) and effective temperature data inputs. The model is trained on the same sample of 6200 stars from 52 open clusters, observed in the Gaia-ESO spectroscopic survey, and used to calibrate the previously published analytical EAGLES model, with ages 2 - 6000 Myr and -0.3 < [Fe/H] < 0.2. The additional flexibility of the ANN provides some improvements, including better modelling of the "lithium dip" at ages < 50 Myr and Teff ~ 3500K, and of the intrinsic dispersion in LiEW at all ages. Poor age discrimination is still an issue at ages > 1 Gyr, confirming that additional modelling flexibility is not sufficient to fully represent the LiEW - age - Teff relationship, and suggesting the involvement of further astrophysical parameters. Expansion to include such parameters - rotation, accretion, and surface gravity - is discussed, and the use of an ANN means these can be more easily included in future iterations, alongside more flexible functional forms for the LiEW dispersion. Our methods and ANN model are provided in an updated version 2.0 of the EAGLES software.

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利用神经网络模型从锂当量宽度估算恒星年龄：EAGLES 扩展

我们提出了一个冷恒星（3000 < Teff / K < 6500）光层锂耗竭的人工神经网络（ANN）模型，根据锂一6708A等效宽度（LiEW）和有效温度数据输入得出年龄估计值和概率分布。该模型在来自 52 个疏散星团的 6200 颗恒星样本上进行了训练，这些恒星是在 Gaia-ESO 光谱调查中观测到的，并用于校准先前发表的分析 EAGLES 模型，年龄为 2 - 6000 Myr，[Fe/H] < 0.2。ANN 的额外灵活性带来了一些改进，包括更好地模拟了年龄小于 50 Myr 和 Teff ~ 3500K 时的 "锂浸 "现象，以及所有年龄段锂电子的内在离散性。在年龄大于 1 Gyr 时，年龄辨别能力差仍然是一个问题，这证实了额外的建模灵活性不足以完全反映 LiEW - 年龄 - Teff 的关系，并表明还需要更多的天体物理参数。我们讨论了将这些参数--旋转、吸积和表面引力--扩展进来的问题，使用方差网络意味着在未来的迭代中可以更容易地将这些参数以及更灵活的 LiEW 分散函数形式包括进来。EAGLES 软件的 2.0 更新版中提供了我们的方法和方差分析模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Solar and Stellar Astrophysics

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