Survival of molecular gas in Virgo's hot intracluster medium: CO near M86

TL;DR

This study investigates whether molecular gas can survive in Virgo's hot intracluster medium by detecting CO emissions near M86, revealing molecular gas presence and survival timescales in a hostile environment.

Contribution

First detection of molecular gas near M86 in Virgo's ICM, demonstrating its potential to survive in hot, ionized environments for up to 100 million years.

Findings

Molecular gas detected ~10 kpc from M86 with a mass of 2*10^7 M_sun.

Evidence suggests molecular gas can form in situ or be stripped from other galaxies.

Survival timescale of molecular gas in filaments is approximately 100 million years.

Abstract

We carried out CO(1-0) and CO(2-1) observations of 21 different regions in the vicinity of M86, NGC4438, and along the 120 kpc-long, Ha-emitting filamentary trail that connects them, aiming to test whether molecular gas can survive to be transferred from a spiral to an elliptical galaxy in Virgo's 10^7K intracluster medium (ICM). We targeted Ha-emitting regions that could be associated with the interface between cold molecular clouds and the hot ionized ICM. The data, obtained with the 30m telescope of the Institut de Radioastronomie Millimetrique, led to the detection of molecular gas close to M86. CO gas with a recession velocity that is similar to that of the stars, -265 km/s, and with a corresponding H2 mass of 2*10^7 M_sun, was detected ~10 kpc southeast of the nucleus of M86, near the peak of its HI emission. We argue that it is possible for this molecular gas either to have formed in situ from HI, or to have been stripped from NGC4438 directly in molecular form. In situ formation is nonetheless negligible for the 7*10^6 M_sun of gas detected at 12:26:15.9+12:58:49, at ~10 kpc northeast of M86, where no (strong) HI emission is present. This detection provides evidence for the survival of molecular gas in filaments for timescales of ~100 Myr. An amount equivalent to 5*10^7 M_sun of H2 gas that could be lost to the ICM or to neighboring galaxies was also discovered in the tidal tail northwest of NGC4438. A scenario of gas being alternatively brought to M86 from NGC4388 on its south was also examined but it was considered unlikely due to the non detection of CO below or at the HI stream velocities, 2000-2700 km/s.