# The isolation of Luminous Blue Variables resembles aging B-type   supergiants, not the most massive unevolved stars

**Authors:** Nathan Smith

arXiv: 1908.06104 · 2019-09-04

## TL;DR

This study shows that luminous blue variables are more similar to aging B-type supergiants than to massive unevolved stars, challenging previous assumptions about their origins and environments.

## Contribution

The paper reveals that LBVs are likely evolved blue supergiants rather than young, massive O-type stars, based on their spatial distribution and spectral analysis.

## Key findings

- LBVs are more closely related to aging B supergiants.
- Photometric blue star samples contain many evolved B supergiants.
- Bright blue stars are better tracers of older stellar populations.

## Abstract

Luminous blue variables (LBVs) are suprisingly isolated from the massive O-type stars that are their putative progenitors in single-star evolution, implicating LBVs as binary evolution products. Aadland et al. (A19) found that LBVs are, however, only marginally more dispersed than a photometrically selected sample of bright blue stars (BBS) in the LMC, leading them to suggest that LBV environments may not exclude a single-star origin. In both comparisons, LBVs have the same median separation, confirming that any incompleteness in the O-star sample does not fabricate LBV isolation. Instead, the relative difference arises because the photometric BBS sample is far more dispersed than known O-type stars. Evidence suggests that the large BBS separation arises because it traces less massive (~20 Msun), aging blue supergiants. Although photometric criteria used by A19 aimed to select only the most massive unevolved stars, visual-wavelength color selection cannot avoid contamination because O and early B stars have almost the same intrinsic color. Spectral types confirm that the BBS sample contains many B supergiants. Moreover, the observed BBS separation distribution matches that of spectroscopically confirmed early B supergiants, not O-type stars, and matches predictions for a ~10 Myr population, not a 3-4 Myr population. A broader implication for ages of stellar populations is that bright blue stars are not a good tracer of the youngest massive O-type stars. Bright blue stars in nearby galaxies (and unresolved blue light in distant galaxies) generally trace evolved blue supergiants akin to SN 1987A's progenitor.

## Full text

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## Figures

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## References

80 references — full list in the complete paper: https://tomesphere.com/paper/1908.06104/full.md

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Source: https://tomesphere.com/paper/1908.06104