3-D CMZ I: Central Molecular Zone Overview

TL;DR

This paper provides a comprehensive far-IR dust continuum overview of the Central Molecular Zone in the Milky Way, revealing its mass, structure, and temperature distribution, and highlighting its distinctiveness from the rest of the inner Galaxy.

Contribution

It offers the first complete, publicly available column density and dust temperature maps of the CMZ, with an expanded extent and detailed analysis of its dense gas distribution.

Findings

CMZ contains approximately 2 x 10^7 solar masses of dense gas.

The CMZ shows a highly asymmetric dense gas distribution, with 70-75% at positive longitudes.

Dust temperatures in the CMZ range from 12 to 35 K with little variation.

Abstract

The Central Molecular Zone (CMZ) is the largest reservoir of dense molecular gas in the Galaxy and is heavily obscured in the optical and near-IR. We present an overview of the far-IR dust continuum, where the molecular clouds are revealed, provided by Herschel in the inner 40\deg($|l| <$ 20\deg) of the Milky Way with a particular focus on the CMZ. We report a total dense gas ($N$(H$_2$) $> 10^{23}$ cm$^{-2}$) CMZ mass of M=$2\substack{+2 \\ -1} \times 10^7$ M$_{\odot}$ and confirm that there is a highly asymmetric distribution of dense gas, with about 70-75% at positive longitudes. We create and publicly release complete fore/background-subtracted column density and dust temperature maps in the inner 40\deg ($|l| <$ 20\deg) of the Galaxy. We find that the CMZ clearly stands out as a distinct structure, with an average mass per longitude that is at least $3\times$ higher than the rest of the inner Galaxy contiguously from 1.8\deg $> \ell >$ -1.3\deg. This CMZ extent is larger than previously assumed, but is consistent with constraints from velocity information. The inner Galaxy's column density peaks towards the SgrB2 complex with a value of about 2 $\times$ 10$^{24}$ cm$^{-2}$, and typical CMZ molecular clouds are about N(H$_2$)=10$^{23}$ cm$^{-2}$. Typical CMZ dust temperatures range from about $12-35$ K with relatively little variation. We identify a ridge of warm dust in the inner CMZ that potentially traces the base of the northern Galactic outflow seen with MEERKAT.