New places and phases of CO-poor/CI-rich molecular gas in the Universe

TL;DR

This paper explores how cosmic rays influence the chemical composition of molecular gas in the universe, leading to CO-poor/CI-rich phases in various astrophysical environments, and discusses observational strategies to detect this gas.

Contribution

It demonstrates that cosmic rays can induce a widespread CO-poor/CI-rich molecular gas phase in diverse cosmic settings, expanding understanding of molecular gas chemistry.

Findings

CRs can make molecular gas CO-invisible in star-forming galaxies.

High-resolution imaging of atomic carbon lines can reveal CO-poor/CI-rich gas.

New observational facilities can detect this phase in different cosmic environments.

Abstract

In this work we extend the work on the recently discovered role of Cosmic Rays (CRs) in regulating the average CO/$\rm H_2$ abundance ratio in molecular clouds (and thus their CO line visibility) in starburst galaxies, and find that it can lead to a CO-poor/CI-rich $\rm H_2 $ gas phase even in environments with Galactic or in only modestly enhanced CR backgrounds expected in ordinary star-forming galaxies. Furthermore, the same CR-driven astro-chemistry raises the possibility of a widespread phase transition of molecular gas towards a CO-poor/CI-rich phase in: a) molecular gas outflows found in star-forming galaxies, b) active galactic nuclei (AGNs), and c) near synchrotron-emitting radio jets and the radio-loud cores of powerful radio galaxies. For main sequence galaxies we find that CRs can render some of their molecular gas mass CO-invisible, compounding the effects of low metallicities. Imaging the two fine structure lines of atomic carbon with resolution high enough to search beyond the CI/CO-bright line regions associated with central starbursts can reveal such a CO-poor/CI-rich molecular gas phase, provided that relative brightness sensitivity levels of $T_b$(CI $1-0$)/$T_b$(CO $J=1-0$)$\sim $0.15 are reached. The capability to search for such gas in the Galaxy is now at hand with the new high-frequency survey telescope HEAT deployed in Antarctica and future ones to be deployed in Dome A. ALMA can search for such gas in star-forming spiral disks, galactic molecular gas outflows and the CR-intense galactic and circumgalactic gas-rich environments of radio-loud objects.