Particularly Efficient Star Formation in M33

TL;DR

This study reveals that M33, a small, low-metallicity galaxy, exhibits highly efficient star formation with molecular gas distributed far out in its disk, resembling properties of intermediate redshift galaxies.

Contribution

It provides detailed CO observations of M33, demonstrating its high star formation efficiency and molecular gas distribution, which are comparable to intermediate redshift galaxies.

Findings

M33 has widespread molecular gas correlating with star formation tracers.

A major molecular cloud was found in an interarm region with little signs of star formation.

M33 exhibits higher star formation efficiency than larger local spirals.

Abstract

The Star Formation (SF) rate in galaxies is an important parameter at all redshifts and evolutionary stages of galaxies. In order to understand the increased SF rates in intermediate redshift galaxies one possibility is to study star formation in local galaxies with properties frequently found at this earlier epoch like low metallicity and small size. We present sensitive observations of the molecular gas in M 33, a small Local Group spiral at a distance of 840 kpc which shares many of the characteristics of the intermediate redshift galaxies. The observations were carried out in the CO(2--1) line with the HERA heterodyne array on the IRAM 30 m telescope. A 11\arcmin$\times$22\arcmin region in the northern part of M 33 was observed, reaching a detection threshold of a few 10$^{3}$ \msol. The correlation in this field between the CO emission and tracers of SF (8\mum, 24\mum, \Ha, FUV) is excellent and CO is detected very far North, showing that molecular gas forms far out in the disk even in a small spiral with a subsolar metallicity. One major molecular cloud was discovered in an interarm region with no HI peak and little if any signs of SF -- without a complete survey this cloud would never have been found. The radial dependence of the CO emission has a scale length similar to the dust emission, less extended than the \Ha or FUV. If, however, the $\ratioo$ ratio varies inversely with metallicity, then the scale length of the H$_2$ becomes similar to that of the \Ha or FUV. Comparing the SF rate to the H$_2$ mass shows that M 33, like the intermediate redshift galaxies it resembles, has a significantly higher SF efficiency than large local universe spirals.