A warm molecular ring in AG Car: composing the mass-loss puzzle

C. Bordiu (1; 3); F. Bufano (1); L. Cerrigone (4); G. Umana (1); J.; R. Rizzo (2; 3); C. S. Buemi (1); P. Leto (1); F. Cavallaro (1; 5; 6),; A. Ingallinera (1); S. Loru (1); C. Trigilio (1); S. Riggi (1) ((1); INAF-Osservatorio Astrofisico di Catania; Italy (2) ISDEFE; Spain (3) Centro; de Astrobiologia (INTA-CSIC); Spain (4) Joint ALMA Observatory; Chile (5),; Inter-University Institute for Data Intensive Astronomy; South Africa (6); University of Cape Town; South Africa)

arXiv:2011.08161·astro-ph.GA·December 2, 2020

A warm molecular ring in AG Car: composing the mass-loss puzzle

C. Bordiu (1, 3), F. Bufano (1), L. Cerrigone (4), G. Umana (1), J., R. Rizzo (2, 3), C. S. Buemi (1), P. Leto (1), F. Cavallaro (1, 5, 6),, A. Ingallinera (1), S. Loru (1), C. Trigilio (1), S. Riggi (1) ((1), INAF-Osservatorio Astrofisico di Catania, Italy (2) ISDEFE

PDF

TL;DR

This study reveals a warm, molecular ring around AG Car, providing insights into its mass-loss history and circumstellar environment through new ALMA and APEX observations.

Contribution

First detection of a molecular ring around AG Car, offering new data on its mass-loss processes and circumstellar structure.

Findings

01

Molecular ring is warm (50 K) and moderately dense (10^3 cm^-3).

02

Total molecular gas mass in the ring is approximately 2.7 solar masses.

03

Mass-loss rate of AG Car is estimated at 1.55×10^-5 solar masses per year.

Abstract

We present APEX observations of CO J=3-2 and ALMA observations of CO J=2-1, 13CO J=2-1 and continuum toward the galactic luminous blue variable AG Car. These new observations reveal the presence of a ring-like molecular structure surrounding the star. Morphology and kinematics of the gas are consistent with a slowly expanding torus located near the equatorial plane of AG Car. Using non-LTE line modelling, we derived the physical parameters of the gas, which is warm (50 K) and moderately dense (10 $^{3}$ cm $^{- 3}$ . The total mass of molecular gas in the ring is 2.7 $\pm$ 0.9 solar masses. We analysed the radio continuum map, which depicts a point-like source surrounded by a shallow nebula. From the flux of the point-like source, we derived a current mass-loss date of $1.55 \pm 0.21 \times 1 0^{- 5}$ solar masses / yr. Finally, to better understand the complex circumstellar environment of AG Car, we…

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.