Jet-Powered Molecular Hydrogen Emission from Radio Galaxies
Patrick Ogle, Francois Boulanger, Pierre Guillard, Daniel A. Evans,, Robert Antonucci, P. N. Appleton, Nicole Nesvadba, Christian Leipski
TL;DR
This study identifies a new class of radio galaxies, called radio MOHEGs, characterized by strong molecular hydrogen emission likely heated by jet feedback, with implications for galaxy evolution and star formation efficiency.
Contribution
The paper establishes radio MOHEGs as a distinct class of galaxies with large H2 emission, linking molecular gas properties to radio activity and environmental factors.
Findings
Radio MOHEGs exhibit large H2 to PAH emission ratios.
Most radio MOHEGs have low star formation efficiency.
H2 emission is likely heated by jet-driven shocks or cosmic rays.
Abstract
H2 pure-rotational emission lines are detected from warm (100-1500 K) molecular gas in 17/55 (31% of) radio galaxies at redshift z<0.22 observed with the Spitzer IR Spectrograph. The summed H2 0-0 S(0)-S(3) line luminosities are L(H2)=7E38-2E42 erg/s, yielding warm H2 masses up to 2E10 Msun. These radio galaxies, of both FR radio morphological types, help to firmly establish the new class of radio-selected molecular hydrogen emission galaxies (radio MOHEGs). MOHEGs have extremely large H2 to 7.7 micron PAH emission ratios: L(H2)/L(PAH7.7) = 0.04-4, up to a factor 300 greater than the median value for normal star-forming galaxies. In spite of large H2 masses, MOHEGs appear to be inefficient at forming stars, perhaps because the molecular gas is kinematically unsettled and turbulent. Low-luminosity mid-IR continuum emission together with low-ionization emission line spectra indicate…
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