First Images of the Molecular Gas around a Born-again Star Revealed by ALMA

Born-again stars allow probing stellar evolution in human timescales and provide the most promising path for the formation of hydrogen-deficient post-asymptotic giant branch objects, but their cold and molecular components remain poorly explored. Here we present ALMA observations of V 605 Aql that u...

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Published in:Astrophysical journal. Letters 2022-01, Vol.925 (1), p.L4
Main Authors: Tafoya, Daniel, Toalá, Jesús A., Unnikrishnan, Ramlal, Vlemmings, Wouter H. T., Guerrero, Martín A., Kimeswenger, Stefan, van Hoof, Peter A. M., Zapata, Luis A., Treviño-Morales, Sandra P., Rodríguez-González, Janis B.
Format: Article
Language:English
Subjects:
Absorption coefficient
Absorptivity
Carbon monoxide
Circumstellar envelopes
Dust
Emission
Hydrogen
Late stellar evolution
Molecular gases
Novae
Stars
Stellar evolution
Stellar jets
Stellar winds
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Summary:Born-again stars allow probing stellar evolution in human timescales and provide the most promising path for the formation of hydrogen-deficient post-asymptotic giant branch objects, but their cold and molecular components remain poorly explored. Here we present ALMA observations of V 605 Aql that unveil for the first time the spatio-kinematic distribution of the molecular material associated with a born-again star. Both the continuum and molecular line emission exhibit a clumpy ring-like structure with a total extent of ≈1″ in diameter. The bulk of the molecular emission is interpreted as being produced in a radially expanding disk-like structure with an expansion velocity v exp ∼ 90 km s −1 and an inclination i ≈ 60° with respect to the line of sight. The observations also reveal a compact high-velocity component, v exp ∼ 280 km s −1 , that is aligned perpendicularly to the expanding disk. This component is interpreted as a bipolar outflow with a kinematical age τ ≲ 20 yr, which could either be material that is currently being ejected from V 605 Aql, or is being dragged from the inner parts of the disk by a stellar wind. The dust mass of the disk is in the range M dust ∼ 0.2–8 × 10 −3 M ⊙ , depending on the dust absorption coefficient. The mass of the CO is M CO ≈ 1.1 × 10 −5 M ⊙ , which is more than three orders of magnitude larger than the mass of the other detected molecules. We estimate a 12 C/ 13 C ratio of 5.6 ± 0.6, which is consistent with the single stellar evolution scenario in which the star experienced a very late thermal pulse instead of a nova-like event as previously suggested.
ISSN:2041-8205
2041-8213
2041-8213
DOI:10.3847/2041-8213/ac4a5b