Extended Dust Emission from Nearby Evolved Stars

TL;DR

This study uses submillimeter and far-infrared observations to analyze dust emission around evolved stars, revealing extended dust structures, variable mass-loss histories, and dust-to-gas ratios consistent with canonical values but with notable scatter.

Contribution

It provides detailed spatially-resolved dust property measurements around evolved stars, highlighting mass-loss variability and the importance of spatial data in dust-to-gas ratio estimation.

Findings

Extended dust emission up to 0.16 pc observed.

Density profiles indicate variable mass-loss histories.

Dust-to-gas ratios align with canonical values but show significant scatter.

Abstract

We present JCMT SCUBA-2 $450\mu$m and $850\mu$m observations of 14 Asymptotic Giant Branch (AGB) stars (9 O--rich, 4 C-rich and 1 S--type) and one Red Supergiant (RSG) in the Solar Neighbourhood. We combine these observations with \emph{Herschel}/PACS observations at $70\mu$m and $160\mu$m and obtain azimuthally-averaged surface-brightness profiles and their PSF subtracted residuals. The extent of the SCUBA-2 850 $\mu$m emission ranges from 0.01 to 0.16 pc with an average of $\sim40\%$ of the total flux being emitted from the extended component. By fitting a modified black-body to the four-point SED at each point along the radial profile we derive the temperature ($T$), spectral index of dust emissivity ($\beta$) and dust column density ($\Sigma$) as a function of radius. For all the sources, the density profile deviates significantly from what is expected for a constant mass-loss rate, showing that all the sources have undergone variations in mass-loss during this evolutionary phase. In combination with results from CO line emission, we determined the dust-to-gas mass ratio for all the sources in our sample. We find that, when sources are grouped according to their chemistry, the resulting average dust-to-gas ratios are consistent with the respective canonical values. However we see a range of values with significant scatter which indicate the importance of including spatial information when deriving these numbers.