Modelling the radio light curve of η Carinae

Amit Kashi; Noam Soker

doi:10.1111/j.1365-2966.2007.11908.x

Modelling the radio light curve of η Carinae

Amit Kashi, Noam Soker

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

We study the propagation of the ionizing radiation emitted by the secondary star in η Carinae. We find that a large fraction of this radiation is absorbed by the primary stellar wind, mainly after it encounters the secondary wind and passes through a shock wave. The amount of absorption depends on the compression factor of the primary wind in the shock wave. We build a model where the compression factor is limited by the magnetic pressure in the primary wind. We find that the variation of the absorption by the post-shock primary wind with orbital phase changes the ionization structure of the circumbinary gas and can account for the radio light curve of η Car. Fast variations near periastron passage are attributed to the onset of the accretion phase.

Original language	English
Pages (from-to)	1609-1618
Number of pages	10
Journal	Monthly Notices of the Royal Astronomical Society
Volume	378
Issue number	4
DOIs	https://doi.org/10.1111/j.1365-2966.2007.11908.x
State	Published - Jul 2007
Externally published	Yes

Keywords

Binaries: general
Stars: individual: η Carinae
Stars: mass-loss
Stars: winds, outflows

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10.1111/j.1365-2966.2007.11908.x

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abstract = "We study the propagation of the ionizing radiation emitted by the secondary star in η Carinae. We find that a large fraction of this radiation is absorbed by the primary stellar wind, mainly after it encounters the secondary wind and passes through a shock wave. The amount of absorption depends on the compression factor of the primary wind in the shock wave. We build a model where the compression factor is limited by the magnetic pressure in the primary wind. We find that the variation of the absorption by the post-shock primary wind with orbital phase changes the ionization structure of the circumbinary gas and can account for the radio light curve of η Car. Fast variations near periastron passage are attributed to the onset of the accretion phase.",

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AB - We study the propagation of the ionizing radiation emitted by the secondary star in η Carinae. We find that a large fraction of this radiation is absorbed by the primary stellar wind, mainly after it encounters the secondary wind and passes through a shock wave. The amount of absorption depends on the compression factor of the primary wind in the shock wave. We build a model where the compression factor is limited by the magnetic pressure in the primary wind. We find that the variation of the absorption by the post-shock primary wind with orbital phase changes the ionization structure of the circumbinary gas and can account for the radio light curve of η Car. Fast variations near periastron passage are attributed to the onset of the accretion phase.

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KW - Stars: winds, outflows

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Modelling the radio light curve of η Carinae

Abstract

Keywords

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