SHIELD: Comparing Gas and Star Formation in Low Mass Galaxies

TL;DR

This study investigates the relationship between atomic hydrogen and star formation in low-mass galaxies, revealing diverse spatial correlations and star formation efficiencies, with implications for understanding gas consumption and star formation variability.

Contribution

It provides high-resolution analysis of HI and star formation in low-mass galaxies, identifying distinct patterns of spatial correlation and quantifying the Kennicutt-Schmidt relation variability.

Findings

Galaxies show three categories of HI and SF spatial correlation.

Star formation efficiencies suggest gas consumption timescales of a few Gyr.

The Kennicutt-Schmidt index varies significantly among systems.

Abstract

We analyze the relationships between atomic, neutral hydrogen (HI) and star formation (SF) in the 12 low-mass SHIELD galaxies. We compare high spectral (~0.82 km/s/channel) and spatial resolution (physical resolutions of 170 pc - 700 pc) HI imaging from the VLA with H\alpha and far-ultraviolet imaging. We quantify the degree of co-spatiality between star forming regions and regions of high HI column densities. We calculate the global star formation efficiencies (SFE, $\Sigma_{\rm SFR}$ / $\Sigma_{\rm HI}$), and examine the relationships among the SFE and HI mass, HI column density, and star formation rate (SFR). The systems are consuming their cold neutral gas on timescales of order a few Gyr. While we derive an index for the Kennicutt-Schmidt relation of N ~ 0.68 $\pm$ 0.04 for the SHIELD sample as a whole, the values of N vary considerably from system to system. By supplementing SHIELD results with those from other surveys, we find that HI mass and UV-based SFR are strongly correlated over five orders of magnitude. Identification of patterns within the SHIELD sample allows us to bin the galaxies into three general categories: 1) mainly co-spatial HI and SF regions, found in systems with highest peak HI column densities and highest total HI masses, 2) moderately correlated HI and SF regions, found in systems with moderate HI column densities, and 3) obvious offsets between HI and SF peaks, found in systems with the lowest total HI masses. SF in these galaxies is dominated by stochasticity and random fluctuations in their ISM.