Multi-wavelength and Multi-CO View of The Minor Merger Driven Star Formation in the Nearby LIRG NGC 3110

Abstract

We present Atacama Large Millimeter/submillimeter Array observations of multiple CO(1-0), 13CO(1-0), and C18O(1-0) lines and 2.9 mm and 1.3 mm continuum emission toward the nearby interacting luminous infrared galaxy NGC 3110, supplemented with similar spatial resolution Hα, 1.4GHz continuum, and K-band data. We estimate the typical CO-to-H2 conversion factor of 1.7 M (K km s-1 pc2)-1 within the disk using LTE-based and dust-based H2 column densities, and measure the 1-kpc scale surface densities of star formation rate ( SFR), super star clusters ( SSC), molecular gas mass, and star formation efficiency (SFE) toward the entire gas disk. These parameters show a peak at the southern part of the southern spiral arm (SFE 10-8.2 yr-1, SFR 10-0.6 M kpc-2 yr-1, SSC 6.0 kpc-2), which is likely attributed to the on-going tidal interaction with the companion galaxy MCG-01-26-013, as well as toward the circumnuclear region. We also find that thermal free-free emission contributes to a significant fraction of the millimeter continuum emission at the southern peak position. Those measurements imply that the peak of the southern arm is an active and young star-forming region, whereas the central part of NGC 3110 is a site of long-continued star formation. We suggest that, during the early stage of the galaxy-galaxy interaction with large mass ratio that in NGC 3110, fragmentation along the main galaxy's arms is an important driver of merger-induced star formation and massive gas inflow results in dusty nuclear starbursts.