TY  - JOUR
A1  - Schöller, Markus
A1  - Hubrig, Swetlana
A1  - Fossati, L.
A1  - Carroll, Thorsten Anthony
A1  - Briquet, Maryline
A1  - Oskinova, Lida
A1  - Järvinen, S.
A1  - Ilyin, Ilya
A1  - Castro, N.
A1  - Morel, T.
A1  - Langer, N.
A1  - Przybilla, N.
A1  - Nieva, M. -F.
A1  - Kholtygin, A. F.
A1  - Sana, H.
A1  - Herrero, A.
A1  - Barba, R. H.
A1  - de Koter, A.
T1  - B fields in OB stars (BOB)
BT  - Concluding the FORS2 observing campaign
JF  - Astronomy and astrophysics : an international weekly journal
N2  - Aims. The B fields in OB stars (BOB) Collaboration is based on an ESO Large Programme to study the occurrence rate, properties, and ultimately the origin of magnetic fields in massive stars. Methods. In the framework of this program, we carried out low-resolution spectropolarimetric observations of a large sample of massive stars using FORS2 installed at the ESO VLT 8m telescope. Results. We determined the magnetic field values with two completely independent reduction and analysis pipelines. Our in-depth study of the magnetic field measurements shows that differences between our two pipelines are usually well within 3 sigma errors. From the 32 observations of 28 OB stars, we were able to monitor the magnetic fields in CPD -57 degrees 3509 and HD164492C, confirm the magnetic field in HD54879, and detect a magnetic field in CPD -62 degrees 2124. We obtain a magnetic field detection rate of 6 +/- 3% for the full sample of 69 OB stars observed with FORS 2 within the BOB program. For the preselected objects with a nu sin i below 60 km s(-1), we obtain a magnetic field detection rate of 5 +/- 5%. We also discuss X-ray properties and multiplicity of the objects in our FORS2 sample with respect to the magnetic field detections.
KW  - polarization
KW  - stars: early-type
KW  - stars: magnetic field
KW  - stars: massive
Y1  - 2017
U6  - https://doi.org/10.1051/0004-6361/201628905
SN  - 1432-0746
VL  - 599
PB  - EDP Sciences
CY  - Les Ulis
ER  - 
TY  - JOUR
A1  - Shenar, Tomer
A1  - Hamann, Wolf-Rainer
A1  - Todt, Helge Tobias
T1  - The impact of rotation on the line profiles of Wolf-Rayet stars
JF  - Astronomy and astrophysics : an international weekly journal
N2  - Context. Massive Wolf-Rayet stars are recognized today to be in a very common, but short, evolutionary phase of massive stars. While our understanding of Wolf-Rayet stars has increased dramatically over the past decades, it remains unclear whether rapid rotators are among them. There are various indications that rapidly rotating Wolf-Rayet stars should exist. Unfortunately, due to their expanding atmospheres, rotational velocities of Wolf-Rayet stars are very difficult to measure. However, recently observed spectra of several Wolf-Rayet stars reveal peculiarly broad and round emission lines. Could these spectra imply rapid rotation?
 Aims. In this work, we model the effects of rotation on the atmospheres of Wolf-Rayet stars. We further investigate whether the peculiar spectra of five Wolf-Rayet stars may be explained with the help of stellar rotation, infer appropriate rotation parameters, and discuss the implications of our results.
 Methods. We make use of the Potsdam Wolf-Rayet (PoWR) non-LTE model atmosphere code. Since the observed spectra of WolfRayet stars are mainly formed in their expanding atmospheres, rotation must be accounted for with a 3D integration scheme of the formal integral. For this purpose, we assume a rotational velocity field consisting of an inner co-rotating domain and an outer domain, where the angular momentum is conserved.
 Results. We find that rotation can reproduce the unique spectra analyzed here. However, the inferred rotational velocities at the stellar surface are large (similar to 200 km s(-1)), and the inferred co-rotation radii (similar to 10R.) suggest the existence of very strong photospheric magnetic fields (similar to 20 kG).
KW  - stars: Wolf-Rayet
KW  - Magellanic Clouds
KW  - stars: magnetic field
KW  - stars: massive
KW  - gamma-ray burst: general
KW  - stars: rotation
Y1  - 2014
U6  - https://doi.org/10.1051/0004-6361/201322496
SN  - 0004-6361
SN  - 1432-0746
VL  - 562
PB  - EDP Sciences
CY  - Les Ulis
ER  - 
TY  - JOUR
A1  - Shenar, Tomer
A1  - Oskinova, Lida
A1  - Jaervinen, S. P.
A1  - Luckas, P.
A1  - Hainich, Rainer
A1  - Todt, Helge Tobias
A1  - Hubrig, Swetlana
A1  - Sander, Andreas Alexander Christoph
A1  - Ilyin, Ilya
A1  - Hamann, Wolf-Rainer
T1  - Constraining the weak-wind problem
BT  - an XMM-HST campaign for the magnetic 09.7 V star HD 54879
JF  - Contributions Of The Astronomical Observatory Skalnate Pleso
N2  - Mass-loss rates of massive, late type main sequence stars are much weaker than currently predicted, but their true values are very difficult to measure. We suggest that confined stellar winds of magnetic stars can be exploited to constrain the true mass-loss rates M of massive main sequence stars. We acquired UV, X-ray, and optical amateur data of HD 54879 (09.7 V), one of a few O-type stars with a detected atmospheric magnetic field (B-d greater than or similar to 2 kG). We analyze these data with the Potsdam Wolf-Rayet (PoWR) and XSPEC codes. We can roughly estimate the mass-loss rate the star would have in the absence of a magnetic field as log M-B=0 approximate to -9.0 M-circle dot yr(-1). Since the wind is partially trapped within the Alfven radius rA greater than or similar to 12 R-*,, the true mass-loss rate of HD 54879 is log M less than or similar to -10.2 M-circle dot yr(-1). Moreover, we find that the microturbulent, macroturbulent, and projected rotational velocities are lower than previously suggested (< 4 km s(-1)). An initial mass of 16 M-circle dot and an age of 5 Myr are inferred. We derive a mean X-ray emitting temperature of log T-x = 6.7 K and an X-ray luminosity of log L-x = 32 erg s(-1). The latter implies a significant X-ray excess (log L-x/L-Bol approximate to - 6.0), most likely stemming from collisions at the magnetic equator. A tentative period of P approximate to 5 yr is derived from variability of the Ha line. Our study confirms that strongly magnetized stars lose little or no mass, and supplies important constraints on the weak-wind problem of massive main sequence stars.
KW  - stars: massive
KW  - stars: magnetic field
KW  - stars: mass-loss
Y1  - 2017
U6  - https://doi.org/10.1051/0004-6361/201731291
SN  - 1335-1842
SN  - 1336-0337
VL  - 48
IS  - 1
SP  - 139
EP  - 143
PB  - Astronomický Ústav SAV
CY  - Tatranská Lomnica
ER  - 
TY  - JOUR
A1  - Steffen, M.
A1  - Hubrig, Swetlana
A1  - Todt, Helge Tobias
A1  - Schoeller, M.
A1  - Hamann, Wolf-Rainer
A1  - Sandin, Christer
A1  - Schönberner, Detlef
T1  - Weak magnetic fields in central stars of planetary nebulae?
JF  - Astronomy and astrophysics : an international weekly journal
N2  - Context. It is not yet clear whether magnetic fields play an essential role in shaping planetary nebulae (PNe), or whether stellar rotation alone and/or a close binary companion, stellar or substellar, can account for the variety of the observed nebular morphologies.
 Aims. In a quest for empirical evidence verifying or disproving the role of magnetic fields in shaping planetary nebulae, we follow up on previous attempts to measure the magnetic field in a representative sample of PN central stars.
 Methods. We obtained low-resolution polarimetric spectra with FORS2 installed on the Antu telescope of the VLT for a sample of 12 bright central stars of PNe with different morphologies, including two round nebulae, seven elliptical nebulae, and three bipolar nebulae. Two targets are Wolf-Rayet type central stars.
 Results. For the majority of the observed central stars, we do not find any significant evidence for the existence of surface magnetic fields. However, our measurements may indicate the presence of weak mean longitudinal magnetic fields of the order of 100 Gauss in the central star of the young elliptical planetary nebula IC 418 as well as in the Wolf-Rayet type central star of the bipolar nebula Hen 2-113 and the weak emission line central star of the elliptical nebula Hen 2-131. A clear detection of a 250 G mean longitudinal field is achieved for the A-type companion of the central star of NGC 1514. Some of the central stars show a moderate night-to-night spectrum variability, which may be the signature of a variable stellar wind and/or rotational modulation due to magnetic features.
 Conclusions. Since our analysis indicates only weak fields, if any, in a few targets of our sample, we conclude that strong magnetic fields of the order of kG are not widespread among PNe central stars. Nevertheless, simple estimates based on a theoretical model of magnetized wind bubbles suggest that even weak magnetic fields below the current detection limit of the order of 100 G may well be sufficient to contribute to the shaping of the surrounding nebulae throughout their evolution. Our current sample is too small to draw conclusions about a correlation between nebular morphology and the presence of stellar magnetic fields.
KW  - planetary nebulae: general
KW  - stars: magnetic field
KW  - stars: AGB and post-AGB
KW  - binaries: close
KW  - techniques: polarimetric
Y1  - 2014
U6  - https://doi.org/10.1051/0004-6361/201423842
SN  - 0004-6361
SN  - 1432-0746
VL  - 570
PB  - EDP Sciences
CY  - Les Ulis
ER  -