# A massive nebula around the Luminous Blue Variable star RMC143 revealed   by ALMA

**Authors:** Claudia Agliozzo, Andrea Mehner, Neil Matthew Phillips, Paolo Leto,, Jose Groh, Alberto Noriega-Crespo, Carla Buemi, Francesco Cavallaro, Luciano, Cerrigone, Adriano Ingallinera, Roberta Paladini, Giuliano Pignata, Corrado, Trigilio, Grazia Umana

arXiv: 1904.08013 · 2019-06-26

## TL;DR

This paper reports the ALMA detection of a massive, dusty nebula around the LBV star RMC143, revises its stellar parameters, and discusses its evolutionary implications within the 30 Doradus region.

## Contribution

It provides the first sub-millimetre imaging of RMC143's nebula, estimates its dust mass, and re-evaluates the star's fundamental parameters and evolutionary status.

## Key findings

- RMC143's nebula is the most dusty LBV nebula observed in the Magellanic Clouds.
- The star's luminosity is lower than previously thought, with a current mass of about 8 solar masses.
- The nebula is likely ionized externally by nearby hot stars in 30 Doradus.

## Abstract

The luminous blue variable (LBV) RMC143 is located in the outskirts of the 30~Doradus complex, a region rich with interstellar material and hot luminous stars. We report the $3\sigma$ sub-millimetre detection of its circumstellar nebula with ALMA. The observed morphology in the sub-millimetre is different than previously observed with HST and ATCA in the optical and centimetre wavelength regimes. The spectral energy distribution (SED) of RMC143 suggests that two emission mechanisms contribute to the sub-mm emission: optically thin bremsstrahlung and dust. Both the extinction map and the SED are consistent with a dusty massive nebula with a dust mass of $0.055\pm0.018~M_{\odot}$ (assuming $\kappa_{850}=1.7\rm\,cm^{2}\,g^{-1}$). To date, RMC143 has the most dusty LBV nebula observed in the Magellanic Clouds. We have also re-examined the LBV classification of RMC143 based on VLT/X-shooter spectra obtained in 2015/16 and a review of the publication record. The radiative transfer code CMFGEN is used to derive its fundamental stellar parameters. We find an effective temperature of $\sim 8500$~K, luminosity of log$(L/L_{\odot}) = 5.32$, and a relatively high mass-loss rate of $1.0 \times 10^{-5}~M_{\odot}$~yr$^{-1}$. The luminosity is much lower than previously thought, which implies that the current stellar mass of $\sim8~M_{\odot}$ is comparable to its nebular mass of $\sim 5.5~M_{\odot}$ (from an assumed gas-to-dust ratio of 100), suggesting that the star has lost a large fraction of its initial mass in past LBV eruptions or binary interactions. While the star may have been hotter in the past, it is currently not hot enough to ionize its circumstellar nebula. We propose that the nebula is ionized externally by the hot stars in the 30~Doradus star-forming region.

## Full text

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## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/1904.08013/full.md

## References

146 references — full list in the complete paper: https://tomesphere.com/paper/1904.08013/full.md

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Source: https://tomesphere.com/paper/1904.08013