Cold gas in group-dominant elliptical galaxies

TL;DR

This study investigates the presence and origin of molecular gas in group-dominant elliptical galaxies, revealing a significant detection rate and diverse sources contributing to gas accumulation, with implications for galaxy activity and evolution.

Contribution

It provides the first systematic CO observations of group-dominant ellipticals, showing they often contain molecular gas from multiple origin mechanisms.

Findings

43% detection rate of molecular gas in the sample

Detected galaxies contain ~2x10^8 solar masses of gas

Gas depletion times are short, requiring replenishment every ~100 Myr

Abstract

We present IRAM 30m telescope observations of the CO(1-0) and (2-1) lines in a sample of 11 group-dominant elliptical galaxies selected from the CLoGS nearby groups sample. Our observations confirm the presence of molecular gas in 4 of the 11 galaxies at >4 sigma significance, and combining these with data from the literature we find a detection rate of 43+-14%, comparable to the detection rate for nearby radio galaxies, suggesting that group-dominant ellipticals may be more likely to contain molecular gas than their non-central counterparts. Those group-dominant galaxies which are detected typically contain ~2x10^8 Msol of molecular gas, and although most have low star formation rates (<1 Msol/yr) they have short depletion times, indicating that the gas must be replenished on timescales ~100 Myr. Almost all of the galaxies contain active nuclei, and we note while the data suggest that CO may be more common in the most radio-loud galaxies, the mass of molecular gas required to power the active nuclei through accretion is small compared to the masses observed. We consider possible origin mechanisms for the gas, through cooling of stellar ejecta within the galaxies, group-scale cooling flows, and gas-rich mergers, and find probable examples of each type within our sample, confirming that a variety of processes act to drive the build up of molecular gas in group-dominant ellipticals.