Binarity and Accretion in AGB Stars: HST/STIS Observations of UV Flickering in Y Gem

Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Ge...

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Published in	The Astrophysical journal Vol. 860; no. 2; pp. 105 - 112
Main Authors	Sahai, R., Contreras, C. Sánchez, Mangan, A. S., Sanz-Forcada, J., Muthumariappan, C., Claussen, M. J.
Format	Journal Article
Language	English
Published	United States The American Astronomical Society 20.06.2018 IOP Publishing
Subjects	Absorption Accretion disks Astrophysics Asymptotic giant branch stars binaries: close Binary stars Blackbody circumstellar matter Companion stars Hubble Space Telescope Luminosity M stars Main sequence stars Outflow Overflow Space telescopes stars: AGB and post-AGB stars: individual (Y Gem) stars: mass-loss Ultraviolet absorption X-ray emissions binaries: close stars: AGB and post-AGB stars: individual (Y Gem), circumstellar matter stars: mass-loss
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ISSN	0004-637X 1538-4357 1538-4357
DOI	10.3847/1538-4357/aac3d7

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Abstract	Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on timescales of 20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si iv and C iv are also observed, with emission and absorption features that are red- and blueshifted by velocities of ∼500 from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blueshifted features due to the absorption of UV continuum emitted by the disk, whereas the redshifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. that Y Gem's companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L , and thus a mass-accretion rate >5 × 10−7 M yr−1; we infer that Roche-lobe overflow is the most likely binary accretion mode for Y Gem.
AbstractList	Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on time-scales of ≲ 20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si IV and C IV are also observed, with emission and absorption features that are red- and blue-shifted by velocities of ~500 km s−1 from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blue-shifted features due to absorption of UV continuum emited by the disk, whereas the red-shifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. (2015) that Y Gem’s companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L⊙, and thus a mass-accretion rate > 5 × 10−7 M⊙ yr−1; we infer that Roche lobe overflow is the most likely binary accretion mode for Y Gem. Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on timescales of 20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si iv and C iv are also observed, with emission and absorption features that are red- and blueshifted by velocities of ∼500 from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blueshifted features due to the absorption of UV continuum emitted by the disk, whereas the redshifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. that Y Gem's companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L , and thus a mass-accretion rate >5 × 10−7 M yr−1; we infer that Roche-lobe overflow is the most likely binary accretion mode for Y Gem. Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the that show strong flickering in the UV continuum on time-scales of ≲ 20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si IV and C IV are also observed, with emission and absorption features that are red- and blue-shifted by velocities of ~500 km s from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blue-shifted features due to absorption of UV continuum emited by the disk, whereas the red-shifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. (2015) that Y Gem's companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 , and thus a mass-accretion rate > 5 × 10 yr ; we infer that Roche lobe overflow is the most likely binary accretion mode for Y Gem. Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on timescales of ≲20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si iv and C iv are also observed, with emission and absorption features that are red- and blueshifted by velocities of ∼500 $\mathrm{km}\,{{\rm{s}}}^{-1}$ from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blueshifted features due to the absorption of UV continuum emitted by the disk, whereas the redshifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. that Y Gem’s companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L ⊙, and thus a mass-accretion rate >5 נ10−7 M ⊙ yr−1; we infer that Roche-lobe overflow is the most likely binary accretion mode for Y Gem. Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on timescales of ≲20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si iv and C iv are also observed, with emission and absorption features that are red- and blueshifted by velocities of ∼500 from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blueshifted features due to the absorption of UV continuum emitted by the disk, whereas the redshifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. that Y Gem’s companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L ⊙ , and thus a mass-accretion rate >5 × 10 −7 M ⊙ yr −1 ; we infer that Roche-lobe overflow is the most likely binary accretion mode for Y Gem. Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on time-scales of ≲ 20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si IV and C IV are also observed, with emission and absorption features that are red- and blue-shifted by velocities of ~500 km s-1 from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blue-shifted features due to absorption of UV continuum emited by the disk, whereas the red-shifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. (2015) that Y Gem's companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L⊙, and thus a mass-accretion rate > 5 × 10-7M⊙ yr-1; we infer that Roche lobe overflow is the most likely binary accretion mode for Y Gem.Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely lacking. As part of a project to search for hot binary companions to cool AGB stars using the GALEX archive, we discovered a late-M star, Y Gem, to be a source of strong and variable UV and X-ray emission. Here we report UV spectroscopic observations of Y Gem obtained with the Hubble Space Telescope that show strong flickering in the UV continuum on time-scales of ≲ 20 s, characteristic of an active accretion disk. Several UV lines with P-Cygni-type profiles from species such as Si IV and C IV are also observed, with emission and absorption features that are red- and blue-shifted by velocities of ~500 km s-1 from the systemic velocity. Our model for these (and previous) observations is that material from the primary star is gravitationally captured by a companion, producing a hot accretion disk. The latter powers a fast outflow that produces blue-shifted features due to absorption of UV continuum emited by the disk, whereas the red-shifted emission features arise in heated infalling material from the primary. The outflow velocities support a previous inference by Sahai et al. (2015) that Y Gem's companion is a low-mass main-sequence star. Blackbody fitting of the UV continuum implies an accretion luminosity of about 13 L⊙, and thus a mass-accretion rate > 5 × 10-7M⊙ yr-1; we infer that Roche lobe overflow is the most likely binary accretion mode for Y Gem.
Author	Sanz-Forcada, J. Muthumariappan, C. Contreras, C. Sánchez Sahai, R. Claussen, M. J. Mangan, A. S.
AuthorAffiliation	1 Jet Propulsion Laboratory, MS 183-900, California Institute of Technology, Pasadena, CA 91109 2 Astrobiology Center (CSIC-INTA), ESAC campus, E-28691 Villanueva de la Cãnada, Madrid, Spain 3 Indian Institute of Astrophysics, Bangalore 560034, India 4 National Radio Astronomy Observatory, 1003 Lopezville Road, Socorro, NM 87801
AuthorAffiliation_xml	– name: 3 Indian Institute of Astrophysics, Bangalore 560034, India – name: 1 Jet Propulsion Laboratory, MS 183-900, California Institute of Technology, Pasadena, CA 91109 – name: 2 Astrobiology Center (CSIC-INTA), ESAC campus, E-28691 Villanueva de la Cãnada, Madrid, Spain – name: 4 National Radio Astronomy Observatory, 1003 Lopezville Road, Socorro, NM 87801
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Snippet	Binarity is believed to dramatically affect the history and geometry of mass loss in AGB and post-AGB stars, but observational evidence of binarity is sorely...
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StartPage	105
SubjectTerms	Absorption Accretion disks Astrophysics Asymptotic giant branch stars binaries: close Binary stars Blackbody circumstellar matter Companion stars Hubble Space Telescope Luminosity M stars Main sequence stars Outflow Overflow Space telescopes stars: AGB and post-AGB stars: individual (Y Gem) stars: mass-loss Ultraviolet absorption X-ray emissions
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Title	Binarity and Accretion in AGB Stars: HST/STIS Observations of UV Flickering in Y Gem
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