# HD101584: Circumstellar characteristics and evolutionary status

**Authors:** H. Olofsson, T. Khouri, M. Maercker, P. Bergman, L. Doan, D. Tafoya,, W.H.T. Vlemmings, E.M.L. Humphreys, M. Lindqvist, L. Nyman, S. Ramstedt

arXiv: 1902.02153 · 2019-04-03

## TL;DR

This study uses ALMA and APEX observations to analyze the circumstellar environment of HD101584, revealing complex structures, molecular compositions, and an evolutionary stage consistent with post-common-envelope evolution before stellar merger.

## Contribution

It provides detailed imaging and analysis of the circumstellar components and molecular emissions of HD101584, offering new insights into its evolutionary status and outflow dynamics.

## Key findings

- Identification of four circumstellar components including a bipolar outflow.
- Detection of multiple molecular species and large dust grains.
- Evidence supporting a post-common-envelope evolutionary phase.

## Abstract

We have performed a study of the characteristics of the circumstellar environment of the binary object HD101584, that provides information on a likely evolutionary scenario. We have obtained and analysed ALMA observations, complemented with observations using APEX, of a large number of molecular lines. An analysis of the spectral energy distribution has also been performed. Emissions from 12 molecular species (not counting isotopologues) have been observed, and most of them mapped with angular resolutions in the range 0.1" to 0.6". Four circumstellar components are identified: i) a central compact source of size 0.15", ii) an expanding equatorial density enhancement (a flattened density distribution in the plane of the orbit) of size 3", iii) a bipolar high-velocity outflow (150 km/s), and iv) an hourglass structure. The outflow is directed almost along the line of sight. There is evidence of a second bipolar outflow. The mass of the circumstellar gas is 0.5[D/1 kpc]^2 Msun, about half of it lies in the equatorial density enhancement. The dust mass is 0.01[D/1 kpc]^2 Msun, and a substantial fraction of this is in the form of large-sized, up to 1 mm, grains. The estimated kinetic age of the outflow is 770[D/1 kpc] yr. The kinetic energy and the scalar momentum of the accelerated gas are estimated to be 7x10^(45)[D/1 kpc]^2 erg and 10^(39)[D/1 kpc]^2 g cm/s, respectively. We provide good evidence that the binary system HD101584 is in a post-common-envelope-evolution phase, that ended before a stellar merger. Isotope ratios combined with stellar mass estimates suggest that the primary star's evolution was terminated already on the first red giant branch (RGB). Most of the energy required to drive the outflowing gas was probably released when material fell towards the companion.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1902.02153/full.md

## Figures

29 figures with captions in the complete paper: https://tomesphere.com/paper/1902.02153/full.md

## References

129 references — full list in the complete paper: https://tomesphere.com/paper/1902.02153/full.md

---
Source: https://tomesphere.com/paper/1902.02153