Nuclear star formation in the hotspot galaxy NGC 2903

Abstract

We present high-resolution near-infrared imaging obtained using adaptive optics and HST/NICMOS, and ground-based spectroscopy of the hot-spot galaxy NGC2903. Our near-infrared resolution imaging enables us to resolve the infrared hot spots into individual young stellar clusters or groups of these. The spatial distribution of the stellar clusters is not coincident with that of the bright HII regions, as revealed by the HST/NICMOS Pa_alpha image. Overall, the circumnuclear star formation in NGC2903 shows a ring-like morphology with an approximate diameter of 625pc. The SF properties of the stellar clusters and HII regions have been studied using the photometric and spectroscopic information in conjunction with evolutionary synthesis models. The population of bright stellar clusters shows a very narrow range of ages, 4-7 X 10^6 yr after the peak of star formation, or absolute ages 6.5-9.5 X 10^6yr (for the assumed short-duration Gaussian bursts), and luminosities similar to the clusters found in the Antennae interacting galaxy. This population of young stellar clusters accounts for some 7-12% of the total stellar mass in the central 625pc of NGC2903. The HII regions in the ring of star formation have luminosities close to that of the super-giant HII region 30 Doradus, they are younger than the stellar clusters, and will probably evolve into bright infrared stellar clusters similar to those observed today. We find that the star formation efficiency in the central regions of NGC2903 is higher than in normal galaxies, approaching the lower end of infrared luminous galaxies.