2001ApJ...547L..49W -
Astrophys. J., 547, L49-L52 (2001/January-3)
Observational estimates for the mass-loss rates of α Centauri and proxima Centauri using Hubble space telescope Lyα spectra.
WOOD B.E., LINSKY J.L., MULLER H.-R. and ZANK G.P.
Abstract (from CDS):
We study H I Lyα absorption observed by the Hubble Space Telescope toward the nearby binary system α Centauri (G2 V + K0 V) and its distant companion star Proxima Centauri (M5.5 Ve). Absorption from heliospheric H I heated by the solar wind/interstellar medium interaction is observed toward both α Cen and Proxima Cen. Absorption from analogous ``astrospheric'' material surrounding the stars is detected toward α Cen but not Proxima Cen. The nondetection of astrospheric absorption toward Proxima Cen suggests that the stellar wind of Proxima Cen must be significantly weaker than that of the α Cen system. We compute several hydrodynamic models of the astrospheres assuming different mass-loss rates in order to predict astrospheric Lyα absorption for comparison with the observations. The model that best matches the α Cen data has a mass-loss rate of M{dot}=2 M{dot}☉, and the models suggest an upper limit of M{dot}≤0.2 M{dot}☉ for Proxima Cen. Finally, we note that the heliospheric absorption observed toward Proxima Cen in 2000 May is identical to the heliospheric absorption observed toward α Cen in 1995 May, implying that the structure of the outer heliosphere does not change significantly during the solar activity cycle.
Abstract Copyright:
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Journal keyword(s):
Hydrodynamics - Stars: Individual: Constellation Name: α Centauri - Stars: Individual: Constellation Name: Proxima Centauri - Stars: Winds, Outflows - Ultraviolet: ISM - Ultraviolet: Stars
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