SIMBAD references

2008A&A...481L..99A - Astronomy and Astrophysics, volume 481, L99-102 (2008/4-3)

Discovery of magnetic fields in the very young, massive stars W601 (NGC 6611) and OI 201 (NGC 2244).

ALECIAN E., WADE G.A., CATALA C., BAGNULO S., BOEHM T., BOHLENDER D., BOURET J.-C., DONATI J.-F., FOLSOM C.P., GRUNHUT J. and LANDSTREET J.D.

Abstract (from CDS):

Recent spectropolarimetric observations of Herbig Ae/Be stars have yielded new arguments in favour of a fossil origin for the magnetic fields of intermediate mass stars. To study the evolution of these magnetic fields, and their impact on the evolution of the angular momentum of these stars during the pre-main sequence phase, we observed Herbig Ae/Be members of young open clusters of various ages. We obtained high-resolution spectropolarimetric observations of Herbig Ae/Be stars belonging to the young open clusters NGC 6611 (<6Myr), NGC 2244 (∼1.9Myr), and NGC 2264 (∼8Myr), using ESPaDOnS at the Canada-France-Hawaii Telescope. Here we report the discovery of strong magnetic fields in two massive pre-main sequence cluster stars. We detected, for the first time, a magnetic field in a pre-main sequence rapid rotator: the 10.2M Herbig B1.5e star W601 (NGC 6611; vsin i≃190km/s). Our spectropolarimetric observations yield a longitudinal magnetic field larger than 1 kG, and imply a rotational period shorter than 1.7 days. The spectrum of this very young object (age ∼0.017Myr) shows strong and variable lines of He and Si. We also detected a magnetic field in the 12.1M B1 star OI 201 (NGC 2244; vsini=23.5km/s). The Stokes V profile of this star does not vary over 5 days, suggesting a long rotational period, a pole-on orientation, or aligned magnetic and rotation axes. OI 201 is situated near the Zero-Age Main Sequence on the HR diagram, and exhibits normal chemical abundances and no spectrum variability.

Abstract Copyright:

Journal keyword(s): stars: magnetic fields - stars: pre-main sequence - stars: chemically peculiar - techniques: polarimetric - techniques: spectroscopic

Simbad objects: 7

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