Exploring the origin of magnetic fields in massive stars: a survey of O-type stars in clusters and in the field

Hubrig, S.; Schöller, M.; Kharchenko, N. V.; Langer, N.; Wit, W. J. de; Ilyin, I.; Холтыгин, А. Ф.; Пискунов, А. Э.; Przybilla, N.

doi:10.1051/0004-6361/201016345

Cited by 78 publications

(112 citation statements)

References 44 publications

(69 reference statements)

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“…The feasibility of longitudinal magnetic field measurements in massive stars using low-resolution spectropolarimetric observations was demonstrated by previous studies of O-and B-type stars (e.g., Hubrig et al 2006Hubrig et al , 2009Hubrig et al , 2008Hubrig et al , 2011cHubrig et al , 2013Hubrig et al , 2015b. A number of discrepancies in the published measurement accuracies using FORS 1 data were reported by Bagnulo et al (2012), who used the ESO FORS 1 pipeline to reduce the FORS 1 archive.…”

Section: Magnetic Field Measurementsmentioning

confidence: 97%

“…Recent detections of strong magnetic fields in very fast rotating early B-type stars indicate that the spindown timescale via magnetic braking can be much longer than the estimated age of these targets (e.g., Rivinius et al 2013). Furthermore, current studies of their kinematical status identified a number of magnetic O and Of?p stars as candidate runaway stars (e.g., Hubrig et al 2011c). Increasing the known number of magnetic objects with extreme rotation, which are probably products of a past binary interaction, is important to understanding the magnetic field origin in massive stars.…”

Section: Introductionmentioning

confidence: 99%

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THE FIRST SPECTROPOLARIMETRIC MONITORING OF THE PECULIAR O4 Ief SUPERGIANT ζ PUPPIS

Hubrig

Холтыгин

Ilyin

et al. 2016

ApJ

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The origin of the magnetic field in massive O-type stars is still under debate. To model the physical processes responsible for the generation of O star magnetic fields, it is important to understand whether correlations between the presence of a magnetic field and stellar evolutionary state, rotation velocity, kinematical status, and surface composition can be identified. The O4 Ief supergiant ζ Pup is a fast rotator and a runaway star, which may be a product of a past binary interaction, possibly having had an encounter with the cluster Trumper 10 some 2 Myr ago. The currently available observational material suggests that certain observed phenomena in this star may be related to the presence of a magnetic field. We acquired spectropolarimetric observations of ζ Pup with FORS 2 mounted on the 8 m Antu telescope of the Very Large Telescope to investigate if a magnetic field is indeed present in this star. We show that many spectral lines are highly variable and probably vary with the recently detected period of 1.78 day. No magnetic field is detected in ζ Pup, as no magnetic field measurement has a significance level higher than 2.4σ. Still, we studied the probability of a single sinusoidal explaining the variation of the longitudinal magnetic field measurements.

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Section: Magnetic Field Measurementsmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

THE FIRST SPECTROPOLARIMETRIC MONITORING OF THE PECULIAR O4 Ief SUPERGIANT ζ PUPPIS

Hubrig

Холтыгин

Ilyin

et al. 2016

ApJ

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“…At the same time, new Of?p stars were identified in the Galaxy, with very similar characteristics (Walborn et al 2010): NGC 1624-2 (period of 158 d, Wade et al 2012b) and CPD−28 • 2561 (Hubrig et al 2011(Hubrig et al , 2013period of 73 d, Wade et al 2015). It must be stressed that, while about ten O stars are now known to be magnetic, the only actual class of magnetic massive stars is the Of?p category.…”

Section: Introductionmentioning

confidence: 94%

“…In this context, the recurrence timescale is the rotational period, and long rotation periods may then be explained by magnetic braking over the lifetime of the star (ud-Doula et al 2009). This implied that all Of?p stars are strongly magnetic, and HD 108 and HD 148937 were indeed soon found to be so (Hubrig et al 2008(Hubrig et al , 2011(Hubrig et al , 2013Martins et al 2010;Wade et al 2012a).…”

Section: Introductionmentioning

confidence: 99%

Photometric identification of the periods of the first candidate extragalactic magnetic massive stars

Nazé

Walborn

Morrell

et al. 2015

A&A

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Galactic stars belonging to the Of?p category are all strongly magnetic objects exhibiting rotationally modulated spectral and photometric changes on timescales of weeks to years. Five candidate Of?p stars in the Magellanic Clouds have been discovered, notably in the context of ongoing surveys of their massive star populations. Here we describe an investigation of their photometric behaviour, revealing significant variability in all studied objects on timescales of one week to more than four years, including clearly periodic variations for three of them. Their spectral characteristics along with these photometric changes provide further support for the hypothesis that these are strongly magnetized O stars, analogous to the Of?p stars in the Galaxy.

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“…For best visibility of the Zeeman features, we overplot the Stokes V spectra of IGR J11215−5952 with the Stokes V spectra of the two well-known magnetic early B-type stars HD 96446 and ξ 1 CMa. Regarding the significance of the magnetic field detections in massive stars at significance levels around 3σ, we note that the two clearly magnetic Of?p stars HD 148937 and CPD −28 • 5104 have been for the first time detected as magnetic in our FORS 2 observations at significance levels of 3.1σ and 3.2σ, respectively (Hubrig et al 2008(Hubrig et al , 2011. The detection of the magnetic field in IGR J11215−5952 at significance levels of 3.2σ and 3.8σ indicates that this target likely possesses a kG magnetic field.…”

Section: Observations and Magnetic Field Measurementsmentioning

confidence: 99%

A search for the presence of magnetic fields in the two supergiant fast X-ray transients, IGR J08408−4503 and IGR J11215−5952

Hubrig

Sidoli

Постнов

et al. 2017

Monthly Notices of the Royal Astronomical Society: Letters

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A significant fraction of high-mass X-ray binaries are supergiant fast X-ray transients (SFXTs). The prime model for the physics governing their X-ray behaviour suggests that the winds of donor OB supergiants are magnetized. To investigate if magnetic fields are indeed present in the optical counterparts of such systems, we acquired low-resolution spectropolarimetric observations of the two optically brightest SFXTs, IGR J08408−4503 and IGR J11215−5952 with the ESO FORS 2 instrument during two different observing runs. No field detection at a significance level of 3σ was achieved for IGR J08408−4503. For IGR J11215−5952, we obtain 3.2σ and 3.8σ detections ( B z hydr = −978 ± 308 G and B z hydr = 416 ± 110 G) on two different nights in 2016. These results indicate that the model involving the interaction of a magnetized stellar wind with the neutron star magnetosphere can indeed be considered to characterize the behaviour of SFXTs. We detected long-term spectral variability in IGR J11215−5952, while for IGR J08408−4503 we find an indication of the presence of short-term variability on a time scale of minutes.

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Exploring the origin of magnetic fields in massive stars: a survey of O-type stars in clusters and in the field

Cited by 78 publications

References 44 publications

THE FIRST SPECTROPOLARIMETRIC MONITORING OF THE PECULIAR O4 Ief SUPERGIANT ζ PUPPIS

THE FIRST SPECTROPOLARIMETRIC MONITORING OF THE PECULIAR O4 Ief SUPERGIANT ζ PUPPIS

Photometric identification of the periods of the first candidate extragalactic magnetic massive stars

A search for the presence of magnetic fields in the two supergiant fast X-ray transients, IGR J08408−4503 and IGR J11215−5952

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