Magnetic survey of emission line B-type stars with FORS1 at the VLT

TL;DR

This study used spectropolarimetry to detect and analyze magnetic fields in Be stars, binary systems, and cluster members, revealing weak magnetic fields and their variability, which enhances understanding of magnetic phenomena in B-type stars.

Contribution

First detection of weak magnetic fields in several Be stars and cluster members, with insights into their temporal behavior and correlation with stellar phenomena.

Findings

Weak magnetic fields detected in four Be stars.

Cyclic magnetic variability observed in lambda Eri.

Magnetic fields present in seven out of fourteen cluster B stars.

Abstract

We report the results of our search for magnetic fields in a sample of 16 field Be stars, the binary emission-line B-type star upsilon Sgr, and in a sample of fourteen members of the open young cluster NGC3766 in the Carina spiral arm. The sample of cluster members includes Be stars, normal B-type stars and He-strong/He-weak stars. Nine Be stars have been studied with magnetic field time series obtained over ~1 hour to get an insight into the temporal behaviour and the correlation of magnetic field properties with dynamical phenomena taking place in Be star atmospheres. The spectropolarimetric data were obtained at the European Southern Observatory with the multi-mode instrument FORS1 installed at the 8m Kueyen telescope. We detect weak photospheric magnetic fields in four field Be stars, HD62367, mu Cen, o Aqr, and epsilon Tuc. The strongest longitudinal magnetic field, <B_z>=117+-38G, was detected in the Be star HD62367. Among the Be stars studied with time series, one Be star, lambda Eri, displays cyclic variability of the magnetic field with a period of 21.12min. The binary star upsilon Sgr, in the initial rapid phase of mass exchange between the two components with strong emission lines in the visible spectrum, is a magnetic variable star, probably on a timescale of a few months. The maximum longitudinal magnetic field <B_z>=-102+-10G at MJD54333.018 was measured using hydrogen lines. The cluster NGC3766 seems to be extremely interesting, where we find evidence for the presence of a magnetic field in seven early B-type stars out of the observed fourteen cluster members.