The L - \sigma\ relation for HII galaxies in green

TL;DR

This study refines the L-sigma relation for HII galaxies using SDSS data, exploring the effects of different emission lines and aperture measurements, and assesses its reliability for measuring cosmic distances and the Hubble constant.

Contribution

It introduces a mixed [OIII]5007 and Hbeta L-sigma relation, demonstrating its effectiveness as a distance indicator and analyzing systematic effects impacting its accuracy.

Findings

The green L-sigma relation with [OIII]5007 is more sensitive to nebular conditions.

The mixed L(Hbeta) sigma[OIII] relation is as effective as the canonical relation for distance measurement.

Evolutionary corrections do not bias the L-sigma relation at high redshifts.

Abstract

The correlation between emission-line luminosity (L) and profile width (sigma) for HII Galaxies provides a powerful method to measure the distances to galaxies over a wide range of redshifts. In this paper we use SDSS spectrophotometry to explore the systematics of the correlation using the [OIII]5007 lines instead of Halpha or Hbeta to measure luminosities and line widths. We also examine possible systematic effects involved in measuring the profile-widths and the luminosities through different apertures. We find that the green L-sigma relation defined using [OIII]5007 luminosities is significantly more sensitive than Hbeta to the effects of age and the physical conditions of the nebulae, which more than offsets the advantage of the higher strength of the [OIII]5007 lines. We then explore the possibility of mixing [OIII]5007 profile-widths with SDSS Hbeta luminosities using the Hubble constant H0 to quantify the possible systematic effects. We find the mixed L(Hbeta) sigma[OIII] relation to be at least as powerful as the canonical L-sigma relation as a distance estimator, and we show that the evolutionary corrections do not change the slope and the scatter of the correlation, and therefore, do not bias the L-sigma distance indicator at high redshifts. Locally, however, the luminosities of the Giant HII Regions that provide the zero-point calibrators are sensitive to evolutionary corrections and may bias the Hubble constant if their mean ages, as measured by the equivalent widths of Hbeta, are significantly different from the mean age of the HII Galaxies. Using a small sample of 16 ad-hoc zero point calibrators we obtain a value of H0 = 66.4\pm4.5 km s^-1 Mpc^-1 for the Hubble constant, which is fully consistent with the best modern determinations, and that is not biased by evolutionary corrections.