TY - JOUR
T1 - Exploring the origin of magnetic fields in massive stars: a survey of O-type stars in clusters and in the field
AU - Hubrig, S.
AU - Schöller, M.
AU - Kharchenko, N.V.
AU - Langer, N.
AU - de Wit, W.J.M.
AU - Ilyin, I.
AU - Kholtygin, A.F.
AU - Piskunov, A.E.
AU - Przybilla, N.
PY - 2011
Y1 - 2011
N2 - Context. Although the effects of magnetic fields in massive stars have been found to be substantial by recent models and observations,
the magnetic fields of only a small number of massive O-type stars have so far been investigated. Additional observations are of the
utmost importance to constraining the conditions that are conducive to magnetic fields and to determine the first trends about their
occurrence rate and field strength distribution.
Aims. To investigate statistically whether magnetic fields in massive stars are ubiquitous or appear only in stars with a specific spectral
classification, certain ages, or in a special environment, we acquired 41 new spectropolarimetric observations for 36 stars. Among the
observed sample, roughly half of the stars are probable members of clusters at different ages, whereas the remaining stars are field
stars not known to belong to any cluster or association.
Methods. Spectropolarimetric observations were obtained during three different nights using the low-resolution spectropolarimetric
mode of FORS 2 (FOcal Reducer low dispersion Spectrograph) mounted on the 8-m Antu telescope of the VLT. To assess the membership
in open clusters and associations, we used astrometric catalogues with the highest quality kinematic and photometric data
currently available.
Results. A field at a significance level of 3σ was detected in ten O-type stars. The strongest longitudinal magnetic fields were
measured in two Of?p stars: = −381 ± 122 G for CPD−28 2561 and = −297 ± 62 G for HD148937, the latter of which had
previously been detected by ourselves as magnetic. The observations of HD148937 obtained on three different nights indicate that
the magnetic field is slightly variable. Our new measurements support our previous conclusion that large-scale organized magnetic
fields with polar field strengths in excess of 1 kG are not widespread among O-type stars. Among the stars with a detected magnetic
field, only one star, HD156154, belongs to an open cluster at high membership probability. According to previous kinematic studies,
four magnetic O-type stars in the sample are well-known candidate runaway stars.
AB - Context. Although the effects of magnetic fields in massive stars have been found to be substantial by recent models and observations,
the magnetic fields of only a small number of massive O-type stars have so far been investigated. Additional observations are of the
utmost importance to constraining the conditions that are conducive to magnetic fields and to determine the first trends about their
occurrence rate and field strength distribution.
Aims. To investigate statistically whether magnetic fields in massive stars are ubiquitous or appear only in stars with a specific spectral
classification, certain ages, or in a special environment, we acquired 41 new spectropolarimetric observations for 36 stars. Among the
observed sample, roughly half of the stars are probable members of clusters at different ages, whereas the remaining stars are field
stars not known to belong to any cluster or association.
Methods. Spectropolarimetric observations were obtained during three different nights using the low-resolution spectropolarimetric
mode of FORS 2 (FOcal Reducer low dispersion Spectrograph) mounted on the 8-m Antu telescope of the VLT. To assess the membership
in open clusters and associations, we used astrometric catalogues with the highest quality kinematic and photometric data
currently available.
Results. A field at a significance level of 3σ was detected in ten O-type stars. The strongest longitudinal magnetic fields were
measured in two Of?p stars: = −381 ± 122 G for CPD−28 2561 and = −297 ± 62 G for HD148937, the latter of which had
previously been detected by ourselves as magnetic. The observations of HD148937 obtained on three different nights indicate that
the magnetic field is slightly variable. Our new measurements support our previous conclusion that large-scale organized magnetic
fields with polar field strengths in excess of 1 kG are not widespread among O-type stars. Among the stars with a detected magnetic
field, only one star, HD156154, belongs to an open cluster at high membership probability. According to previous kinematic studies,
four magnetic O-type stars in the sample are well-known candidate runaway stars.
U2 - 10.1051/0004-6361/201016345
DO - 10.1051/0004-6361/201016345
M3 - Article
SN - 0004-6361
VL - 528
SP - A151/1-A151/7
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
ER -