# SOFIA {\it FORCAST} Photometry of 12 Extended Green Objects in the Milky   Way

**Authors:** Allison P. M. Towner, Crystal L. Brogan, Todd R. Hunter, Claudia J., Cyganowski, Rachel K. Friesen

arXiv: 1903.06808 · 2019-05-01

## TL;DR

This study uses SOFIA FORCAST photometry to analyze 12 extended green objects in the Milky Way, constructing their spectral energy distributions to understand their evolutionary stage and physical properties.

## Contribution

First mid-infrared imaging and photometry of 12 EGOs with SOFIA, combined with multi-wavelength data and modeling to characterize their physical parameters and evolutionary status.

## Key findings

- Median luminosity-to-mass ratio suggests a transitional evolutionary stage.
- Models indicate typical protostar radius around 10 solar radii.
- Objects are likely in a cooler, younger phase of IR-bright stage.

## Abstract

Massive young stellar objects are known to undergo an evolutionary phase in which high mass accretion rates drive strong outflows. A class of objects believed to trace this phase accurately is the GLIMPSE Extended Green Object (EGO) sample, so named for the presence of extended 4.5 $\mu$m emission on sizescales of $\sim$0.1 pc in \textit{Spitzer} images. We have been conducting a multi-wavelength examination of a sample of 12 EGOs with distances of 1 to 5 kpc. In this paper, we present mid-infrared images and photometry of these EGOs obtained with the SOFIA telescope, and subsequently construct SEDs for these sources from the near-IR to sub-millimeter regimes using additional archival data. We compare the results from greybody models and several publicly-available software packages which produce model SEDs in the context of a single massive protostar. The models yield typical \rstar\/$\sim$10 \rsun, \tstar\/$\sim$10$^3$ to 10$^4$ K, and \lstar\/$\sim$1~$-$~40~$\times$~10$^3$ \lsun; the median $L/M$ for our sample is 24.7 \lsun/\msun. Model results rarely converge for \rstar\/ and \tstar, but do for \lstar, which we take to be an indication of the multiplicity and inherently clustered nature of these sources even though, typically, only a single source dominates in the mid-infrared. The median $L/M$ value for the sample suggests that these objects may be in a transitional stage between the commonly described ``IR-quiet'' and ``IR-bright'' stages of MYSO evolution. The median $T_{dust}$ for the sample is less conclusive, but suggests that these objects are either in this transitional stage or occupy the cooler (and presumably younger) part of the IR-bright stage.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1903.06808/full.md

## Figures

76 figures with captions in the complete paper: https://tomesphere.com/paper/1903.06808/full.md

## References

100 references — full list in the complete paper: https://tomesphere.com/paper/1903.06808/full.md

---
Source: https://tomesphere.com/paper/1903.06808