Title

The axisymmetric stellar wind of AG

Document Type

Article

Publication Date

7-10-1994

Abstract

We present optical linear spectropolarimetry of the Luminous Blue Variable AG Carinae obtained after a recent visual brightness increase. The absence of He II λ4686 emission, together with the weakening of the He I spectrum and the appearance of Fe lines in the region around 5300 Å, confirm that AG Car has started a new excursion across the HR diagram. The Ha line profile exhibits very extended line wings that are polarized differently in both amount and position angle from either the continuum or the line core. The polarization changes across Ha, together with variable continuum polarization, indicate the presence of intrinsic polarization. Coexistence of the line-wing polarization with extended flux-line wings evidences that both are formed by electron scattering in a dense wind. The position angle rotates across the line profiles, in a way that presently available models suggest is due to rotation and expansion of the scattering material. AG Car displays very large variations of its linear polarization with time, ΔP ∼ 1.2%, indicating significant variations in envelope opacity. We find that the polarization varies along a preferred position angle of ∼ 145° (with a scatter of ± 10°) which we interpret as a symmetry axis of the stellar wind (with an ambiguity of 90°). This position angle is co-aligned with the major axis of the AG Car ring nebula and perpendicular to the AG Car jet. Our observations thus suggest that the axisymmetric geometry seen in the resolved circumstellar environment at various distances already exists within a few stellar radii of AG Car. From the Ha polarization profile we deduce an interstellar polarization of Q = 0.31%, U = - 1.15% at Hα. The inferred interstellar polarization implies that the intrinsic polarization is not always of the same sign. This indicates either significant temporal changes in the envelope geometry, or it may arise from effects of multiple scattering in conjunction with density variations.

Publication Source (Journal or Book title)

Astrophysical Journal

First Page

846

Last Page

856

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