Spitzer-IRS Study of the Antennae Galaxies NGC 4038/39

Abstract

Using the Infrared Spectrograph on the Spitzer Space Telescope, we observed the Antennae galaxies obtaining spectral maps of the entire central region and high signal-to-noise 5-38 um spectra of the two galactic nuclei and six infrared-luminous regions. The total infrared luminosity of our six IR peaks plus the two nuclei is LIR = 3.8x1010 Lo, with their derived star formation rates ranging between 0.2 and 2 Mo/yr, with a total of 6.6 Mo/yr. The hardest and most luminous radiation originates from two compact clusters in the southern part of the overlap region, which also have the highest dust temperatures. PAH emission and other tracers of softer radiation are spatially extended throughout and beyond the overlap region, but regions with harder and intenser radiation field show a reduced PAH strength. The strong H2 emission is rather confined around the nucleus of NGC 4039, where shocks appear to be the dominant excitation mechanism, and the southern part of the overlap region, where it traces the most recent starburst activity. The luminosity ratio between the warm molecular gas (traced by the H2 lines) and the total far-IR emission is ~1.6x10-4, similar to that found in many starburst and ULIRGs. The total mass of warm H2 in the Antennae is 2.5x107 Mo, with a fraction of warm to total H2 gas mass of about 0.35%. The average warm H2 temperature is 302+/-26 K and appears anti-correlated with the radiation field hardness, possibly due to an evolution of the PDR morphology. The previously reported tight correlation between the H2 and PAH emission was not found but higher total PAH emission to continuum ratios were found in PDRs with warmer gas.