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The role of complex magnetic topologies on stellar spin-down

Published online by Cambridge University Press:  09 September 2016

Victor Réville
Affiliation:
Laboratoire AIM, DSM/IRFU/SAp, CEA Saclay, email: victor.reville@cea.fr
Allan Sacha Brun
Affiliation:
Laboratoire AIM, DSM/IRFU/SAp, CEA Saclay, email: victor.reville@cea.fr
Antoine Strugarek
Affiliation:
Laboratoire AIM, DSM/IRFU/SAp, CEA Saclay, email: victor.reville@cea.fr Département de physique, Université de Montréal
Sean P. Matt
Affiliation:
Department of Physics and Astronomy, University of Exeter
Jérôme Bouvier
Affiliation:
IPAG, Université Joseph Fourier Grenoble
Colin P. Folsom
Affiliation:
IPAG, Université Joseph Fourier Grenoble
Pascal Petit
Affiliation:
IRAP, CNRS - Université de Toulouse
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Abstract

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The rotational braking of magnetic stars through the extraction of angular momentum by stellar winds has been studied for decades, leading to several formulations. We recently demonstrated that the dependency of the braking law on the coronal magnetic field topology can be taken into account through a simple scalar parameter: the open magnetic flux. The Zeeman-Doppler Imaging technique has brought the community a reliable and precise description of the surface magnetic field of distant stars. The coronal structure can then be reconstructed using a potential field extrapolation, a technique that relies on a source surface radius beyond which all field lines are open, thus avoiding a computationally expensive MHD simulations. We developed a methodology to choose the best source surface radius in order to estimate open flux and magnetic torques. We apply this methodology to five K-type stars from 25 to 584 Myr and the Sun, and compare the resulting torque to values expected from spin evolution models.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2016 

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