Mass Flows in Massive Binaries: Clues from Spectropolarimetry

J.L. Hoffman

doi:10.1051/eas/1571036

All issues

Volume 71-72 (2015)

EAS Publications Series, 71-72 (2015) 163-167

Abstract

Issue		EAS Publications Series Volume 71-72, 2015 The Physics of Evolved Stars: A Conference Dedicated to the Memory of Olivier Chesneau


Page(s)		163 - 167
Section		Binaries
DOI		https://doi.org/10.1051/eas/1571036
Published online		01 December 2015

The Physics of Evolved Stars: A Conference Dedicated to the Memory of Olivier Chesneau
E. Lagadec, F. Millour and T. Lanz (eds)
EAS Publications Series, 71–72 (2015) 163-167

Mass Flows in Massive Binaries: Clues from Spectropolarimetry

J.L. Hoffman

Dept. of Physics & Astronomy, University of Denver, 2112 E. Wesley Ave., Denver, CO 80208-6900, USA

Abstract

Because most massive stars have been or will be affected by a companion during the course of their evolution, we cannot afford to neglect binaries when discussing the progenitors of supernovae and GRBs. Analyzing linear polarization in the emission lines of close binary systems allows us to probe the structures of these systems' winds and mass flows, making it possible to map the complex morphologies of the mass loss and mass transfer structures that shape their subsequent evolution. In Wolf-Rayet (WR) binaries, line polarization variations with orbital phase distinguish polarimetric signatures arising from lines that scatter near the stars from those that scatter far from the orbital plane. These far-scattering lines may form the basis for a “binary line-effect method” of identifying rapidly rotating WR stars (and hence GRB progenitor candidates) in binary systems.