Stellar Population in LLAGN.II: STIS observations

TL;DR

This study investigates the stellar populations in Low Luminosity AGN using high-resolution optical spectra, revealing that young and intermediate age stars are more prevalent in weak-[OI] LLAGN and may influence their ionization mechanisms.

Contribution

It provides a comparative analysis of stellar populations in LLAGN using both space-based and ground-based spectra, highlighting the role of young and intermediate stars in different ionization regimes.

Findings

Young stars contribute more in weak-[OI] LLAGN.

Intermediate age stars are common in weak-[OI] LLAGN.

Strong-[OI] LLAGN mostly have old stellar populations.

Abstract

We present a study of the stellar population in Low Luminosity AGN (LLAGN). Our goal is to search for spectroscopic signatures of young and intermediate age stars, and to investigate their relationship with the ionization mechanism in LLAGN. The method used is based on the stellar population synthesis of the optical continuum of the innermost (20-100 pc) regions in these galaxies. For this purpose, we have collected high spatial resolution optical (2900-5700 A) STIS spectra of 28 nearby LLAGN that are available in the Hubble Space Telescope archive. The analysis of these data is compared with a similar analysis also presented here for 51 ground-based spectra of LLAGN. Our main findings are: (1) No features due to Wolf-Rayet stars were convincingly detected in the STIS spectra. (2) Young stars contribute very little to the optical continuum in the ground-based aperture. However, the fraction of light provided by these stars is higher than 10% in most of the weak-[OI] LLAGN STIS spectra. (3) Intermediate age stars contribute significantly to the optical continuum of these nuclei. This population is more frequent in objects with weak than with strong [OI]. Weak-[OI] LLAGN that have young stars stand out for their intermediate age population. (4) Most of the strong-[OI] LLAGN have predominantly old stellar population. A few of these objects also show a feature-less continuum that contributes significantly to the optical continuum. These results suggest that young and intermediate age stars do not play a significant role in the ionization of LLAGN with strong [OI]. However, the ionization in weak-[OI] LLAGN with young and/or intermediate age population could be due to stellar processes.