Discovery Of Rotational Braking In The Magnetic Helium-Strong Star Sigma Orionis E

Authors

R. H.D. Townsend
M. E. Oksala
David H. Cohen, Swarthmore CollegeFollow
S. P. Owocki
A. Ud-Doula

Document Type

Article

Publication Date

5-10-2010

Published In

Astrophysical Journal Letters

Abstract

We present new U-band photometry of the magnetic helium-strong star sigma Ori E, obtained over 2004-2009 using the SMARTS 0.9 m telescope at Cerro Tololo Inter-American Observatory. When combined with historical measurements, these data constrain the evolution of the star's 1.19 day rotation period over the past three decades. We are able to rule out a constant period at the p(null) = 0.05% level, and instead find that the data are well described (p(null) = 99.3%) by a period increasing linearly at a rate of 77 ms per year. This corresponds to a characteristic spin-down time of 1.34 Myr, in good agreement with theoretical predictions based on magnetohydrodynamical simulations of angular momentum loss from magnetic massive stars. We therefore conclude that the observations are consistent with sigma Ori E undergoing rotational braking due to its magnetized line-driven wind.

Comments

This work is freely available courtesy of IOP Publishing and the American Astronomical Society.

Recommended Citation

R. H.D. Townsend et al. (2010). "Discovery Of Rotational Braking In The Magnetic Helium-Strong Star Sigma Orionis E". Astrophysical Journal Letters. Volume 714, Issue 2. L318-L322. DOI: 10.1088/2041-8205/714/2/L318
https://works.swarthmore.edu/fac-physics/16