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Jamie R. Lomax & Jennifer L. Hoffman

Spectropolarimetry of Beta Lyrae: Constraining the Location of the Hot Spot and Jets

(Volume 80 - Année 2011)
Article
Open Access

Abstract

Beta Lyrae is an eclipsing, semi-detached binary system whose state of active mass transfer can reveal details of the nonconservative evolution of binary stars. Roche lobe overflow has caused the system to evolve to a complex state. A thick accretion disk almost completely obscures the secondary, mass-gaining star while the rapid mass transfer likely drives mass loss through the system’s bipolar outflows. Polarimetry can provide important information about the physical structure of complex systems; in fact, the discovery of bipolar outflows in beta Lyrae was confirmed through polarimetry. Here we present results from 6 years of new and recalibrated spectropolarimetric data taken with the University of Wisconsin’s Half-Wave Spectropolarimeter (HPOL). We discuss their implications for our current understanding of the system’s disk-jet geometry. Using both broadband and line polarization analysis techniques, we derive new information about the structure of the disk, the presence and location of a hot spot, and the distribution of hot line-emitting gas.

Para citar este artículo

Jamie R. Lomax & Jennifer L. Hoffman, «Spectropolarimetry of Beta Lyrae: Constraining the Location of the Hot Spot and Jets», Bulletin de la Société Royale des Sciences de Liège [En ligne], Volume 80 - Année 2011, 689 - 693 URL : http://popups.ulg.be/0037-9565/index.php?id=3155.

Acerca de: Jamie R. Lomax

University of Denver, Denver, CO, USA

Acerca de: Jennifer L. Hoffman

University of Denver, Denver, CO, USA