# Metallic-Line Stars Identified from Low Resolution Spectra of LAMOST DR5

**Authors:** Li Qin, A-Li Luo, Wen Hou, Yin-Bi Li, Shuo Zhang, Rui Wang, Li-Li, Wang, Xiao Kong, and Jin-Shu Han

arXiv: 1904.03242 · 2019-06-05

## TL;DR

This paper presents a large catalog of metallic-line (Am) stars identified from LAMOST DR5 spectra using machine learning, and analyzes their statistical properties and distribution in the galaxy.

## Contribution

It introduces a novel application of the random forest algorithm for identifying Am stars in a large spectral database, achieving high success and feature ranking capability.

## Key findings

- Identified 9,372 Am stars from LAMOST DR5 spectra.
- Am stars mainly have spectral types between F0 and A4.
- The vertical distribution of Am stars decreases with height from the Galactic plane.

## Abstract

LAMOST DR5 released more than 200,000 low resolution spectra of early-type stars with S/N>50. Searching for metallic-line (Am) stars in such a large database and study of their statistical properties are presented in this paper. Six machine learning algorithms were experimented with using known Am spectra, and both the empirical criteria method(Hou et al. 2015) and the MKCLASS package(Gray et al. 2016) were also investigated. Comparing their performance, the random forest (RF) algorithm won, not only because RF has high successful rate but also it can derives and ranks features. Then the RF was applied to the early type stars of DR5, and 15,269 Am candidates were picked out. Manual identification was conducted based on the spectral features derived from the RF algorithm and verified by experts. After manual identification, 9,372 Am stars and 1,131 Ap candidates were compiled into a catalog. Statistical studies were conducted including temperature distribution, space distribution, and infrared photometry. The spectral types of Am stars are mainly between F0 and A4 with a peak around A7, which is similar to previous works. With the Gaia distances, we calculated the vertical height Z from the Galactic plane for each Am star. The distribution of Z suggests that the incidence rate of Am stars shows a descending gradient with increasing jZj. On the other hand, Am stars do not show a noteworthy pattern in the infrared band. As wavelength gets longer, the infrared excess of Am stars decreases, until little or no excess in W1 and W2 bands.

## Full text

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## Figures

22 figures with captions in the complete paper: https://tomesphere.com/paper/1904.03242/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/1904.03242/full.md

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Source: https://tomesphere.com/paper/1904.03242