# Primeval very low-mass stars and brown dwarfs - II. The most metal-poor   substellar object

**Authors:** Z. H. Zhang, D. Homeier, D. J. Pinfield, N. Lodieu, H. R. A. Jones, F., Allard, Ya. V. Pavlenko

arXiv: 1702.02001 · 2017-04-12

## TL;DR

This study reclassifies a very low-metallicity substellar object as the most metal-poor and highest mass known, revealing a transition zone in the substellar population related to unsteady nuclear fusion.

## Contribution

It identifies and characterizes the most metal-poor substellar object to date, and maps a new transition zone in the substellar mass-metallicity space.

## Key findings

- SDSS J010448.46+153501.8 is the most metal-poor substellar object known.
- A 'halo brown dwarf transition zone' in the T_eff-[Fe/H] plane is identified.
- The object is just below the hydrogen-burning minimum mass at its metallicity.

## Abstract

SDSS J010448.46+153501.8 has previously been classified as an sdM9.5 subdwarf. However, its very blue $J-K$ colour ($-0.15 \pm 0.17$) suggests a much lower metallicity compared to normal sdM9.5 subdwarfs. Here, we re-classify this object as a usdL1.5 subdwarf based on a new optical and near-infrared spectrum obtained with X-shooter on the Very Large Telescope. Spectral fitting with BT-Settl models leads to $T_{\rm eff}$ = 2450 $\pm$ 150 K, [Fe/H] = $-$2.4 $\pm$ 0.2 and log $g$ = 5.5 $\pm$ 0.25. We estimate a mass for SDSS J010448.46+153501.8 of 0.086 $\pm$ 0.0015 M$_{\odot}$ which is just below the hydrogen-burning minimum mass at [Fe/H] = $-$2.4 ($\sim$0.088 M$_{\odot}$) according to evolutionary models. Our analysis thus shows SDSS J0104+15 to be the most metal-poor and highest mass substellar object known to-date. We found that SDSS J010448.46+153501.8 is joined by another five known L subdwarfs (2MASS J05325346+8246465, 2MASS J06164006$-$6407194, SDSS J125637.16$-$022452.2, ULAS J151913.03$-$000030.0 and 2MASS J16262034+3925190) in a 'halo brown dwarf transition zone' in the $T_{\rm eff}-$[Fe/H] plane, which represents a narrow mass range in which unsteady nuclear fusion occurs. This halo brown dwarf transition zone forms a 'substellar subdwarf gap' for mid L to early T types.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1702.02001/full.md

## References

79 references — full list in the complete paper: https://tomesphere.com/paper/1702.02001/full.md

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Source: https://tomesphere.com/paper/1702.02001