CO-CHANGES I: IRAM 30m CO Observations of Molecular Gas in the Sombrero Galaxy

TL;DR

This study presents CO observations of the Sombrero galaxy, revealing its low molecular gas content and star formation activity, and discusses its dark matter halo and gas replenishment history.

Contribution

First IRAM 30m CO observations of the Sombrero galaxy, providing insights into its molecular gas content, dynamics, and star formation efficiency in a massive spiral.

Findings

Molecular gas mass is approximately 4×10^8 solar masses.

Maximum CO gas rotation velocity is about 379 km/s.

Galaxy is extremely gas poor and has low star formation activity.

Abstract

Molecular gas plays a critical role in explaining the quiescence of star formation (SF) in massive isolated spiral galaxies, which could be a result of either the low molecular gas content and/or the low SF efficiency. We present IRAM 30m observations of the CO lines in the Sombrero galaxy (NGC~4594), the most massive spiral at $d\lesssim30\rm~Mpc$. We detect at least one of the three CO lines covered by our observations in all 13 observed positions located at the galactic nucleus and along a $\sim25\rm~kpc$-diameter dusty ring. The total extrapolated molecular gas mass of the galaxy is $M_{\rm H_2}\approx4\times10^{8}\rm~M_\odot$. The measured maximum CO gas rotation velocity of $\approx379\rm~km~s^{-1}$ suggests that NGC~4594 locates in a dark matter halo with a mass $M_{\rm200}\gtrsim10^{13}\rm~M_\odot$. Comparing to other galaxy samples, NGC~4594 is extremely gas poor and SF inactive, but the SF efficiency is apparently not inconsistent with that predicted by the Kennicutt-Schmidt law, so there is no evidence of enhanced SF quenching in this extremely massive spiral with a huge bulge. We also calculate the predicted gas supply rate from various sources to replenish the cold gas consumed in SF, and find that the galaxy must experienced a starburst stage at high redshift, then the leftover or recycled gas provides SF fuels to maintain the gradual growth of the galactic disk at a gentle rate.