# Measuring surface magnetic fields of red supergiant stars

**Authors:** Benjamin Tessore, Agn\`es L\`ebre, Julien Morin, Philippe Mathias,, Eric Josselin, and Michel Auri\`ere

arXiv: 1704.07761 · 2017-07-26

## TL;DR

This study investigates surface magnetic fields in a sample of red supergiant stars, finding weak magnetic signatures in several stars and suggesting magnetic fields are common in such stars but may diminish in later evolutionary stages.

## Contribution

The paper extends the detection of surface magnetic fields to multiple M-type supergiants, demonstrating that weak magnetic fields are prevalent among these stars and analyzing their variability.

## Key findings

- Weak Zeeman signatures detected in CE Tau, α¹ Her, and μ Cep.
- Magnetic fields at the Gauss level in CE Tau and μ Cep.
- Variability of magnetic fields correlates with atmospheric dynamics.

## Abstract

RSG stars are very massive cool evolved stars. Recently, a weak magnetic field was measured at the surface of $\alpha$ Ori and this is so far the only M-type supergiant for which a direct detection of a surface magnetic field has been reported. By extending the search for surface magnetic field in a sample of late-type supergiants, we want to determine whether the surface magnetic field detected on $\alpha$ Ori is a common feature among the M-type supergiants. With the spectropolarimeter Narval at TBL we undertook a search for surface magnetic fields in a sample of cool supergiant stars, and we analysed circular polarisation spectra using the least-squares deconvolution technique. We detect weak Zeeman signatures of stellar origin in the targets CE Tau, $\alpha^1$ Her and $\mu$ Cep. For the latter star, we also show that cross-talk from the strong linear polarisation signals detected on this star must be taken into account. For CE Tau and $\mu$ Cep, the longitudinal component of the detected surface fields is at the Gauss-level, such as in $\alpha$~Ori. We measured a longitudinal field almost an order of magnitude stronger for $\alpha^1$ Her. We also report variability of the longitudinal magnetic field of CE Tau and $\alpha^1$ Her, with changes in good agreement with the typical atmospheric dynamics time-scales. We also report a non-detection of magnetic field at the surface of the yellow supergiant star $\rho$ Cas. The two RSG stars of our sample, CE Tau and $\mu$ Cep, display magnetic fields very similar to that of $\alpha$ Ori. The non-detection of a magnetic field on the post-RSG star $\rho$ Cas suggests that the magnetic field disappears, or at least becomes undetectable with present methods, at later evolutionary stages. Our analysis of $\alpha^1$ Her supports the proposed reclassification of the star as an AGB star.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1704.07761/full.md

## References

56 references — full list in the complete paper: https://tomesphere.com/paper/1704.07761/full.md

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Source: https://tomesphere.com/paper/1704.07761