The environments and clustering properties of 2dFGRS-selected starburst galaxies

TL;DR

This study examines the environments and clustering of starburst galaxies from the 2dFGRS, revealing that local interactions and mergers often trigger starbursts, though some are internally driven without environmental influence.

Contribution

It provides new insights into the environmental factors influencing starburst activity, highlighting the role of close neighbors and mergers, and contrasting with the overall galaxy population.

Findings

Starburst galaxies are less clustered on large scales than the general galaxy population.

Presence of a near neighbor within 20 kpc is linked to starburst triggering.

A significant fraction show signs of tidal interactions or mergers.

Abstract

We investigate the environments and clustering properties of starburst galaxies selected from the 2dF Galaxy Redshift Survey (2dFGRS) in order to determine which, if any, environmental factors play a role in triggering a starburst. We quantify the local environments, clustering properties and luminosity functions of our starburst galaxies and compare to random control samples. The starburst galaxies are also classified morphologically in terms of their broad Hubble type and evidence of tidal merger/interaction signatures. We find the starburst galaxies to be much less clustered on large (5-15 Mpc) scales compared to the overall 2dFGRS galaxy population. In terms of their environments, we find just over half of the starburst galaxies to reside in low to intermediate luminosity groups, and a further ~30 per cent residing in the outskirts and infall regions of rich clusters. Their luminosity functions also differ significantly from that of the overall 2dFGRS galaxy population, with the sense of the difference being critically dependent on the way their star formation rates are measured. In terms of pin-pointing what might trigger the starburst, it would appear that factors relating to their local environment are most germane. Specifically, we find clear evidence that the presence of a near neighbour of comparable luminosity/mass within 20 kpc is likely to be important in triggering a starburst. We also find that a significant fraction (20-30 per cent) of our starburst galaxies have morphologies indicative of either an ongoing or recent tidal interaction and/or merger. These findings notwithstanding, there remain a significant portion of starburst galaxies where local environmental influences are not in any obvious way playing a triggering role, leading us to conclude that starbursts can also be internally driven.