New Observations of Extra-Disk Molecular Gas in Interacting Galaxy Systems, Including a Two-Component System in Stephan's Quintet

Smith, Beverly J., Struck, Curtis

01 February 2001

We present new CO (1-0) observations of 11 extragalactic tails and bridges in nine interacting galaxy systems, almost doubling the number of such features with sensitive CO measurements. Eight of these 11 features were undetected in CO to very low CO/H I limits, with the most extreme case being the NGC 7714/5 bridge. This bridge contains luminous H II regions and has a very high H I column density (1.6 × 1021 cm-2 in the 55″ CO beam), yet was undetected in CO to rms T*R = 2.4 mK. The H I column density is higher than standard H2 and CO self-shielding limits for solar-metallicity gas, suggesting that the gas in this bridge is metal-poor and has an enhanced NH2/ICO ratio compared with the Galactic value. Only one of the 11 features in our sample was unambiguously detected in CO, a luminous H I-rich star formation region near an optical tail in the compact group Stephan's Quintet. We detect CO at two widely separated velocities in this feature, at ∼6000 and ∼6700 km s-1. Both of these components have H I and Hα counterparts. These velocities correspond to those of galaxies in the group, suggesting that this gas is material that has been removed from two galaxies in the group. The CO/ H I/Hα ratios for both components are similar to global values for spiral galaxies.

galaxies: individual (Stephan's Quintet

NGC 7714

NGC 7715)

galaxies: interactions

galaxies: ISM

Physics and Astronomy

Star Formation and the Interstellar Medium in Nearby Tidal Streams (SAINTS): Spitzer Mid-Infrared Spectroscopy and Imaging of Intergalactic Star-Forming Objects

Higdon, S. J.U., Higdon, J. L., Smith, B. J., Hancock, M.

01 June 2014

A spectroscopic analysis of 10 intergalactic star-forming objects (ISFOs) and a photometric analysis of 67 ISFOs in a sample of 14 interacting systems is presented. The majority of the ISFOs have relative polycyclic aromatic hydrocarbon (PAH) band strengths similar to those of nearby spiral and starburst galaxies. In contrast to what is observed in blue compact dwarfs (BCDs) and local giant H II regions in the Milky Way (NGC 3603) and the Magellanic Clouds (30 Doradus and N 66), the relative PAH band strengths in ISFOs correspond to models with a significant PAH ion fraction (<50%) and bright emission from large PAHs (∼100 carbon atoms). The [Ne III]/[Ne II] and [S IV]/[S III] line flux ratios indicate moderate levels of excitation with an interstellar radiation field that is harder than the majority of the Spitzer Infrared Nearby Galaxies Survey and starburst galaxies, but softer than BCDs and local giant H II regions. The ISFO neon line flux ratios are consistent with a burst of star formation ∼6 million years ago. Most of the ISFOs have ∼106 M ⊙ of warm H2 with a likely origin in photo-dissociation regions (PDRs). Infrared Array Camera photometry shows the ISFOs to be bright at 8 μm, with one-third having [4.5]-[8.0] > 3.7, i.e., enhanced non-stellar emission, most likely due to PAHs, relative to normal spirals, dwarf irregulars, and BCD galaxies. The relative strength of the 8 μm emission compared to that at 3.6 μm or 24 μm separates ISFOs from dwarf galaxies in Spitzer two-color diagrams. The infrared power in two-thirds of the ISFOs is dominated by emission from grains in a diffuse interstellar medium. One in six ISFOs have significant emission from PDRs, contributing ∼30%-60% of the total power. ISFOs are young knots of intense star formation.

dwarf - galaxies

formation - galaxies

galaxies

individual (Arp 72

Arp 84

Arp 87

Arp 105

Arp 242

Arp 284

Stephan's Quintet

NGC 5291) - galaxies

interactions - infrared

Physics and Astronomy