# The High-Mass Protostellar Population of a Massive Infrared Dark Cloud

**Authors:** Emily Moser, Mengyao Liu, Jonathan C. Tan, Wanggi Lim, Yichen Zhang,, Juan Pablo Farias

arXiv: 1907.12560 · 2020-07-22

## TL;DR

This study catalogs high-mass protostars in a massive infrared dark cloud, analyzing their properties and distribution to understand early star formation processes in such environments.

## Contribution

It provides a detailed census of high-mass protostars in IRDC G028.37+00.07 using Herschel data and protostellar models, revealing their luminosities, masses, and spatial distribution.

## Key findings

- Protostars span luminosities from 20 to 4,500 L_sun.
- Most massive protostars have current masses around 10 M_sun.
- Protostars are relatively evenly distributed without strong central concentration.

## Abstract

We conduct a census of the high-mass protostellar population of the $\sim70,000\:M_\odot$ Infrared Dark Cloud (IRDC) G028.37+00.07, identifying 35 sources based on their $70\:\mu$m emission, as reported in the {\it Herschel} Hi-GAL catalog of Molinari et al. (2016). We perform aperture photometry to construct spectral energy distributions (SEDs), which are then fit with the massive protostar models of Zhang & Tan (2018). We find that the sources span a range of isotropic luminosities from $\sim$20 to 4,500$\:L_\odot$. The most luminous sources are predicted to have current protostellar masses of $m_{*}\sim10\:M_\odot$ forming from cores of mass $M_{c}\sim40$ to $400\:M_\odot$. The least luminous sources in our sample are predicted to be protostars with masses as low as $\sim 0.5\:M_\odot$ forming from cores with $M_{c}\sim10\:M_\odot$, which are the minimum values explored in the protostellar model grid. The detected protostellar population has a total estimated protostellar mass of $M_{*}\sim 100\:M_\odot$. Allowing for completeness corrections, which are constrained by comparison with an ALMA study in part of the cloud, we estimate a star formation efficiency per free-fall time of $\sim3\%$ in the IRDC. Finally, analyzing the spatial distribution of the sources, we find relatively low degrees of central concentration of the protostars. The protostars, including the most massive ones, do not appear to be especially centrally concentrated in the protocluster as defined by the IRDC boundary.

## Full text

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## Figures

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## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1907.12560/full.md

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Source: https://tomesphere.com/paper/1907.12560