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Paper: Investigation of the Magnetic Field Characteristics of Herbig Ae/Be Stars: Discovery of the Pre-Main Sequence Progenitors of the Magnetic Ap/Bp Stars
Volume: 358, Solar Polarization 4
Page: 369
Authors: Wade, G.A.; Drouin, D.; Bagnulo, S.; Landstreet, J.D.; Mason, E.; Silvester, J.; Alecian, E.; Boehm, T.; Bouret, J.-C.; Catala, C.; Donati, J.-F.; Folsom, C.; Bale, K.
Abstract: We are investigating the magnetic characteristics of pre-main sequence Herbig Ae/Be stars, with the aim of: 1) understanding the origin and evolution of magnetism in intermediate-mass stars, and 2) exploring the influence of magnetic fields on accretion, rotation and mass-loss at the early stages of evolution of A, B, and O stars. We have begun by conducting 2 large surveys of Herbig Ae/Be stars, searching for direct evidence of photospheric magnetic fields via the longitudinal Zeeman effect. From observations obtained using FORS1 at the ESO-VLT and ESPaDOnS at the Canada-France-Hawaii Telescope, we report the confirmed detection of magnetic fields in 4 pre-main sequence Aand B-type stars, and the apparent (but as yet unconfirmed) detection of fields in 2 other such stars. We do not confirm the detection of magnetic fields in several stars reported by other authors to be magnetic: HD139614, HD144432, or HD31649. One of the most evolved stars in the detected sample, HD72106A, shows clear evidence of strong photospheric chemical peculiarity, whereas many of the other (less evolved) stars do not. The magnetic fields that we detect appear to have surface intensities of order 1 kG, seem to be structured on global scales, and appear in about 10% of the stars studied. Based on these properties, these magnetic stars appear to be pre-main sequence progenitors of the magnetic Ap/Bp stars.
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