Paper for Friday, 2/8/12

Here’s what I (Alison) will talk about, I guess not this Friday, because of Galaxy Group, but the following one, 2/8/12.

Title: Enhanced Warm H2 Emission in the Compact Group Mid-Infrared "Green Valley"
Authors: Cluver, M. E.; Appleton, P. N.; Ogle, P.; Jarrett, T. H.; Rasmussen, J.; Lisenfeld, U.; Guillard, P.; Verdes-Montenegro, L.; Antonucci, R.; Bitsakis, T.;Charmandaris, V.; Boulanger, F.; Egami, E.; Xu, C. K.; Yun, M. S.
Publication: eprint arXiv:1301.4549
Publication Date: 01/2013
Origin: ARXIV
Keywords: Astrophysics – Cosmology and Extragalactic Astrophysics
Comment: 34 pages, 21 figures. Accepted for publication in ApJ
Bibliographic Code: 2013arXiv1301.4549C


We present results from a Spitzer, mid-infrared spectroscopy study of a sample of 74 galaxies located in 23 Hickson Compact Groups, chosen to be at a dynamically-active stage of HI depletion. We find evidence for enhanced warm H2 emission (i.e. above that associated with UV excitation in star-forming regions) in 14 galaxies (~20%), with 8 galaxies having extreme values of L(H2 S(0)-S(3))/L(7.7micron PAH), in excess of 0.07. Such emission has been seen previously in the compact group HCG 92 (Stephan’s Quintet), and was shown to be associated with the dissipation of mechanical energy associated with a large-scale shock caused when one group member collided, at high velocity, with tidal debris in the intragroup medium. Similarly, shock excitation or turbulent heating is likely responsible for the enhanced H2 emission in the compact group galaxies, since other sources of heating (UV or X-ray excitation from star formation or AGN) are insufficient to account for the observed emission. The group galaxies fall predominantly in a region of mid-infrared color-color space identified by previous studies as being connected to rapid transformations in HCG galaxy evolution. Furthermore, the majority of H2-enhanced galaxies lie in the optical "green valley" between the blue cloud and red-sequence, and are primarily early-type disk systems. We suggest that H2-enhanced systems may represent a specific phase in the evolution of galaxies in dense environments and provide new insight into mechanisms which transform galaxies onto the optical red sequence.

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