The magnetic early B-type stars – III. A main-sequence magnetic, rotational, and magnetospheric biography

Author:

Shultz M E1,Wade G A2,Rivinius Th3,Alecian E4,Neiner C5ORCID,Petit V1ORCID,Owocki S1,ud-Doula A6,Kochukhov O7,Bohlender D8,Keszthelyi Z2910,

Affiliation:

1. Department of Physics and Astronomy, University of Delaware, 217 Sharp Lab, Newark, DE 19716, USA

2. Department of Physics and Space Science, Royal Military College of Canada, PO Box 17000, Station Forces, Kingston, Ontario K7K 7B4, Canada

3. ESO – European Organisation for Astronomical Research in the Southern Hemisphere, Casilla 19001, Santiago 19, Chile

4. Université Grenoble Alpes, CNRS, IPAG, F-38000 Grenoble, France

5. LESIA, Paris Observatory, PSL University, CNRS, Sorbonne Université, Université de Paris, 5 place Jules Janssen, F-92195 Meudon, France

6. Department of Physics, Penn State Scranton, Dunmore, PA 18512, USA

7. Department of Physics and Astronomy, Uppsala University, Box 516, SE-75120 Uppsala, Sweden

8. National Research Council of Canada, Herzberg Astronomy and Astrophysics Research Centre, 5071 West Saanich Road, Victoria, BC V9E 2E7, Canada

9. Department of Physics, Engineering Physics & Astronomy, Queen’s University, 64 Bader Lane, Kingston, ON K7L 3N6, Canada

10. Anton Pannekoek Institute for Astronomy, University of Amsterdam, Science Park 904, NL-1098 XH Amsterdam, the Netherlands

Abstract

ABSTRACT Magnetic confinement of stellar winds leads to the formation of magnetospheres, which can be sculpted into centrifugal magnetospheres (CMs) by rotational support of the corotating plasma. The conditions required for the CMs of magnetic early B-type stars to yield detectable emission in H α – the principal diagnostic of these structures – are poorly constrained. A key reason is that no detailed study of the magnetic and rotational evolution of this population has yet been performed. Using newly determined rotational periods, modern magnetic measurements, and atmospheric parameters determined via spectroscopic modelling, we have derived fundamental parameters, dipolar oblique rotator models, and magnetospheric parameters for 56 early B-type stars. Comparison to magnetic A- and O-type stars shows that the range of surface magnetic field strength is essentially constant with stellar mass, but that the unsigned surface magnetic flux increases with mass. Both the surface magnetic dipole strength and the total magnetic flux decrease with stellar age, with the rate of flux decay apparently increasing with stellar mass. We find tentative evidence that multipolar magnetic fields may decay more rapidly than dipoles. Rotational periods increase with stellar age, as expected for a magnetic braking scenario. Without exception, all stars with H α emission originating in a CM are (1) rapid rotators, (2) strongly magnetic, and (3) young, with the latter property consistent with the observation that magnetic fields and rotation both decrease over time.

Funder

Canada–France–Hawaii Telescope

National Research Council Canada

Institut National des Sciences de l’Univers (INSU) of the Centre National de la Recherche Scientifique

University of Hawaii

La Silla Observatory ESO

Uppsala University

University of Vienna

European Space Agency

Natural Sciences and Engineering Research Council of Canada

Annie Jump Cannon Fellowship

University of Delaware

Mount Cuba Astronomical Observatory

National Science Foundation

NASA

Chandra X-ray Observatory Center

Smithsonian Astrophysical Observatory

Knut and Alice Wallenberg Foundation

Swedish Research Council

Swedish National Space Board

Programme National de Physique Stellaire

Canadian Astronomy Data Centre

Publisher

Oxford University Press (OUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

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