English

Spatially resolved CIII]$\lambda$1909 emission in Haro 11

Astrophysics of Galaxies 2020-11-18 v1

Abstract

The CIII]1909 (hereafter, C III]) line is the strongest ultraviolet emission line after Lyα\alpha and is therefore of interest to high redshift studies of star-forming (SF) galaxies near the epoch of reionization. It is thought that C III] emission is strongest in galaxies with subsolar metallicity and low mass, however, spectral observations of numerous such galaxies at high and low redshift produce inconclusive or even contradictory results. We present the first ever C III ] imaging, obtained with HST/STIS for the low-redshift SF galaxy Haro 11. Cluster parameters like stellar mass, dust fraction and dust attenuation, and ionization parameter, obtained through spectral energy distribution fitting, show no correlation with the CIII] equivalent width (EW), which may be due to a combination of the limitation of the models and the age-homogeneity of the cluster population. Comparing the ratio of C III] emission line flux from individual clusters to that of Hα\alpha, [O III], and [O II] we find that the clusters with the highest EW(C III]) can be reconciled only with Cloudy models with an extremely high C/O ratio of \ge 1.4(C/O)_\odot for an ionizing population of single stars, binary stars, or a mixture of binary stars and active galactic nuclei. Given the point-like nature of strong C III], the integrated total strength of EW(C III]) becomes dependent on the morphology of the galaxy, which would explain the large scatter in EW(C III]) strengths, observed in galaxies with otherwise similar SF properties, and of similarly low metallicity and stellar mass.

Keywords

Cite

@article{arxiv.2010.04716,
  title  = {Spatially resolved CIII]$\lambda$1909 emission in Haro 11},
  author = {Genoveva Micheva and Göran Östlin and Jens Melinder and Matthew Hayes and M. S. Oey and Akio K. Inoue and Ikuru Iwata and Angela Adamo and Lutz Wisotzki and Kimihiko Nakajima},
  journal= {arXiv preprint arXiv:2010.04716},
  year   = {2020}
}

Comments

Accepted for publication in ApJ

R2 v1 2026-06-23T19:13:05.332Z