Magnetic fields and the variable wind of the early-type supergiant β Ori

Magnetic fields and the variable wind of the early-type supergiant β Ori

Supergiant stars of spectral types B and A are characterized by variable and structured winds, as revealed by variability of optical and ultraviolet spectral lines. Non- radial pulsations and magnetically supported loops have been proposed as explanations for these phenomena. The latter hypothesis i...

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Main Author: Shultz, Matthew Eric
Other Authors: Queen's University (Kingston, Ont.). Theses (Queen's University (Kingston, Ont.))
Language:en
en
Published: 2012
Subjects:
stellar winds
Stars (magnetic)
stars (early type)
stars (supergiant)
spectropolarimetry
Online Access:http://hdl.handle.net/1974/7165
id ndltd-LACETR-oai-collectionscanada.gc.ca-OKQ.1974-7165
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OKQ.1974-71652013-12-20T03:40:30ZMagnetic fields and the variable wind of the early-type supergiant β OriShultz, Matthew Ericstellar windsStars (magnetic)stars (early type)stars (supergiant)spectropolarimetrySupergiant stars of spectral types B and A are characterized by variable and structured winds, as revealed by variability of optical and ultraviolet spectral lines. Non- radial pulsations and magnetically supported loops have been proposed as explanations for these phenomena. The latter hypothesis is tested using a time series of 65 high-resolution (λ/∆λ ∼ 65, 000) circular polarization (Stokes I and V ) spectra of the late B type supergiant Rigel (β Ori, B8 Iae), obtained with the instruments ESPaDOnS and Narval at the Canada-France-Hawaii Telescope and the Bernard Lyot Telescope, respectively. Examination of the unpolarized (Stokes I) spectra using standard spectral analysis tools confirms complex line profile variability during the 5 month period of observations; the high spectral resolution allows the identification of a weak, transient Hα feature similar in behaviour to a High Velocity Absorption event. Analysis of the Stokes V spectra using the cross-correlation technique Least Squares Deconvolution (LSD) yields no evidence of a magnetic field in either LSD Stokes V profiles or longitudinal field measurements, with longitudinal field 1σ error bars of ∼ 12 G for individual observations, and a mean field in the best observed period of 3 ± 2 G. Synthetic LSD profiles fit to the observations using a Monte Carlo approach yield an upper limit on the surface dipolar field strength of Bdip ≤ 50 G for most orientations of the rotational and magnetic axes, lowered to Bdip ≤ 35 G if the mean LSD profile from the most densely time-sampled epoch (with an LSD SNR of ∼80,000) is used. A simple two-spot geometry representing the footpoints of a magnetic loop emerging from the photosphere yields upper limits on the spot magnetic fields of 60–600 G, depending on the filling factor of the spots. Given existing measurements of the mass loss rate and the wind terminal velocity, these results cannot rule out a magnetically confined wind as, for Bdip ≤ 15 G, η∗ ≥ 1. However, the detailed pattern of line profile variability seems inconsistent with the periodic wind modulation characteristic of known magnetic early-type stars, suggesting that magnetic fields do not play a dominant role in Rigel’s variable winds.Thesis (Master, Physics, Engineering Physics and Astronomy) -- Queen's University, 2012-04-29 02:10:41.308Queen's University (Kingston, Ont.). Theses (Queen's University (Kingston, Ont.))2012-04-27 10:05:23.6462012-04-29 02:10:41.3082012-04-30T21:20:18Z2012-04-30T21:20:18Z2012-04-30Thesishttp://hdl.handle.net/1974/7165enenCanadian thesesThis publication is made available by the authority of the copyright owner solely for the purpose of private study and research and may not be copied or reproduced except as permitted by the copyright laws without written authority from the copyright owner.
collection NDLTD
language en
en
sources NDLTD
topic stellar winds
Stars (magnetic)
stars (early type)
stars (supergiant)
spectropolarimetry
spellingShingle stellar winds
Stars (magnetic)
stars (early type)
stars (supergiant)
spectropolarimetry
Shultz, Matthew Eric
Magnetic fields and the variable wind of the early-type supergiant β Ori
description Supergiant stars of spectral types B and A are characterized by variable and structured winds, as revealed by variability of optical and ultraviolet spectral lines. Non- radial pulsations and magnetically supported loops have been proposed as explanations for these phenomena. The latter hypothesis is tested using a time series of 65 high-resolution (λ/∆λ ∼ 65, 000) circular polarization (Stokes I and V ) spectra of the late B type supergiant Rigel (β Ori, B8 Iae), obtained with the instruments ESPaDOnS and Narval at the Canada-France-Hawaii Telescope and the Bernard Lyot Telescope, respectively. Examination of the unpolarized (Stokes I) spectra using standard spectral analysis tools confirms complex line profile variability during the 5 month period of observations; the high spectral resolution allows the identification of a weak, transient Hα feature similar in behaviour to a High Velocity Absorption event. Analysis of the Stokes V spectra using the cross-correlation technique Least Squares Deconvolution (LSD) yields no evidence of a magnetic field in either LSD Stokes V profiles or longitudinal field measurements, with longitudinal field 1σ error bars of ∼ 12 G for individual observations, and a mean field in the best observed period of 3 ± 2 G. Synthetic LSD profiles fit to the observations using a Monte Carlo approach yield an upper limit on the surface dipolar field strength of Bdip ≤ 50 G for most orientations of the rotational and magnetic axes, lowered to Bdip ≤ 35 G if the mean LSD profile from the most densely time-sampled epoch (with an LSD SNR of ∼80,000) is used. A simple two-spot geometry representing the footpoints of a magnetic loop emerging from the photosphere yields upper limits on the spot magnetic fields of 60–600 G, depending on the filling factor of the spots. Given existing measurements of the mass loss rate and the wind terminal velocity, these results cannot rule out a magnetically confined wind as, for Bdip ≤ 15 G, η∗ ≥ 1. However, the detailed pattern of line profile variability seems inconsistent with the periodic wind modulation characteristic of known magnetic early-type stars, suggesting that magnetic fields do not play a dominant role in Rigel’s variable winds. === Thesis (Master, Physics, Engineering Physics and Astronomy) -- Queen's University, 2012-04-29 02:10:41.308
author2 Queen's University (Kingston, Ont.). Theses (Queen's University (Kingston, Ont.))
author_facet Queen's University (Kingston, Ont.). Theses (Queen's University (Kingston, Ont.))
Shultz, Matthew Eric
author Shultz, Matthew Eric
author_sort Shultz, Matthew Eric
title Magnetic fields and the variable wind of the early-type supergiant β Ori
title_short Magnetic fields and the variable wind of the early-type supergiant β Ori
title_full Magnetic fields and the variable wind of the early-type supergiant β Ori
title_fullStr Magnetic fields and the variable wind of the early-type supergiant β Ori
title_full_unstemmed Magnetic fields and the variable wind of the early-type supergiant β Ori
title_sort magnetic fields and the variable wind of the early-type supergiant β ori
publishDate 2012
url http://hdl.handle.net/1974/7165
work_keys_str_mv AT shultzmattheweric magneticfieldsandthevariablewindoftheearlytypesupergiantbori
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