A Robust Young Stellar Object Identification Method Based on Deep Learning

Lei Tan, 磊 谈, Zhicun Liu, 志存 柳, Xiaolong Wang, 小龙 王, Ying Mei, 盈 梅, Feng Wang, 锋 王, Hui Deng, 辉 邓, Chao Liu and 超 刘
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Abstract

Young stellar objects (YSOs) represent the earliest stage in the process of star formation, offering insights that contribute to the development of models elucidating star formation and evolution. Recent advancements in deep-learning techniques have enabled significant strides in identifying special objects within vast data sets. In this paper, we present a YSO identification method based on deep-learning principles and spectra from the LAMOST. We designed a structure based on a long short-term memory network and a convolutional neural network and trained different models in two steps to identify YSO candidates. Initially, we trained a model to detect stellar spectra featuring the Hα emission line, achieving an accuracy of 98.67%. Leveraging this model, we classified 10,495,781 stellar spectra from LAMOST, yielding 76,867 candidates displaying a Hα emission line. Subsequently, we developed a YSO identification model, which achieved a recall rate of 95.81% for YSOs. Utilizing this model, we further identified 35,021 YSO candidates from the Hα emission-line candidates. Following cross validation, 3204 samples were identified as previously reported YSO candidates. We eliminated samples with low signal-to-noise ratios and M dwarfs by using the equivalent widths of the N ii and He i emission lines and visual inspection, resulting in a catalog of 20,530 YSO candidates. To facilitate future research endeavors, we provide the obtained catalogs of Hα emission-line star candidates and YSO candidates along with the code used for training the model.
基于深度学习的稳健年轻恒星天体识别方法
年轻恒星天体(YSOs)代表了恒星形成过程中的最早阶段,有助于阐明恒星形成和演化模型的发展。深度学习技术的最新进展使我们在识别庞大数据集中的特殊天体方面取得了长足进步。在本文中,我们介绍了一种基于深度学习原理和 LAMOST 光谱的 YSO 识别方法。我们设计了一种基于长短期记忆网络和卷积神经网络的结构,并分两步训练了不同的模型来识别 YSO 候选天体。首先,我们训练了一个模型来检测以Hα发射线为特征的恒星光谱,准确率达到98.67%。利用这个模型,我们对来自 LAMOST 的 10,495,781 条恒星光谱进行了分类,得到了 76,867 条显示 Hα 发射线的候选光谱。随后,我们建立了一个 YSO 识别模型,该模型对 YSO 的召回率达到了 95.81%。利用该模型,我们从 Hα 发射线候选天体中进一步识别出了 35021 个 YSO 候选天体。经过交叉验证,有 3204 个样本被确定为以前报告过的 YSO 候选样本。通过使用 N ii 和 He i 发射线的等效宽度以及目测,我们剔除了信噪比低的样本和 M 矮星,最终得到了一份包含 20,530 个 YSO 候选样本的星表。为了方便今后的研究工作,我们提供了所获得的 Hα 发射线候选星和 YSO 候选星星表以及用于训练模型的代码。
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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