Outside-in Shrinking of the Star-forming Disk of Dwarf Irregular Galaxies

TL;DR

This study reveals that in dwarf irregular galaxies, star-forming regions are shrinking inward over time, leading to steeper stellar mass profiles and challenging the traditional inside-out growth model.

Contribution

It provides the first comprehensive analysis of multi-band surface brightness profiles showing star formation shrinking in dwarf irregular galaxies, contrasting with spiral galaxy growth models.

Findings

80% of galaxies show shorter disk scale lengths at shorter wavelengths.

Outer disks have steeper stellar mass profiles, explaining the down-bending profiles.

35% of galaxies exhibit negative radial SFR to mass ratios, especially in low-mass systems.

Abstract

We have studied multi-band surface brightness profiles of a representative sample of 34 nearby dwarf irregular galaxies (dIrrs). Our data include GALEX FUV/NUV, UBV, H\alpha, and Spitzer 3.6 \mum images. These galaxies constitute the majority of the LITTLE THINGS survey. By modeling the azimuthal averages of the spectral energy distributions with a complete library of star formation (SF) histories, we derived the stellar mass surface density distributions and the SF rate averaged over three different timescales: the recent 0.1 Gyr, 1 Gyr and a Hubble time. We find that, for \sim 80% (27 galaxies) of our sample galaxies, radial profiles (at least in the outer part) at shorter wavelengths have shorter disk scale lengths than those at longer wavelengths. This indicates that the star-forming disk has been shrinking. In addition, the radial distributions of the stellar mass surface density are well described as piece-wise exponential profiles, and \sim 80% of the galaxies have steeper mass profiles in the outer disk than in the inner region. The steep radial decline of SF rate in the outer parts compared to that in the inner disks gives a natural explanation for the down-bending stellar mass surface density profiles. Within the inner disks, our sample galaxies on average have constant ratios of recent SF rate to stellar mass with radius. Nevertheless, \sim 35% (12 galaxies, among which 7 have baryonic mass < 10^8 M\odot) of the sample exhibit negative slopes across the observed disk, which is in contrast with the "inside-out" disk growth scenario suggested for luminous spiral galaxies. The tendency of SF to become concentrated toward the inner disks in low mass dIrrs is interpreted as a result of their susceptibility to environmental effects and regulation through stellar feedback.