# Impact of an AGN featureless continuum on estimation of stellar   population properties

**Authors:** Leandro S. M. Cardoso, Jean Michel Gomes, Polychronis Papaderos

arXiv: 1705.04224 · 2017-08-23

## TL;DR

This study investigates how the featureless AGN continuum affects the accuracy of stellar population property estimates in galaxy spectra, highlighting the need for proper modeling of AGN contributions.

## Contribution

It demonstrates the significant biases introduced by neglecting AGN power-law components in spectral synthesis, emphasizing the importance of including AGN features for accurate galaxy property recovery.

## Key findings

- Neglecting AGN continuum causes overestimation of stellar mass by ~2 dex.
- Ignoring AGN leads to overestimated stellar ages and underestimated metallicities.
- Proper modeling of AGN contribution reduces uncertainties in derived galaxy properties.

## Abstract

The effect of the featureless power-law (PL) continuum of an active galactic nucleus (AGN) on the estimation of physical properties of galaxies with optical population spectral synthesis (PSS) remains largely unknown. With this in mind, we fit synthetic galaxy spectra representing a wide range of galaxy star formation histories (SFHs) and including distinct PL contributions of the form $F_{\nu} \propto \nu^{-\alpha}$ with the PSS code STARLIGHT to study to which extent various inferred quantities (e.g. stellar mass, mean age, and mean metallicity) match the input. The synthetic spectral energy distributions (SEDs) computed with our evolutionary spectral synthesis code include an AGN PL component with $0.5 \leq \alpha \leq 2$ and a fractional contribution $0.2 \leq x_{\mathrm{AGN}} \leq 0.8$ to the monochromatic flux at 4020 \AA. At the empirical AGN detection threshold $x_{\mathrm{AGN}}\simeq 0.26$ that we previously inferred in a pilot study on this subject, our results show that the neglect of a PL component in spectral fitting can lead to an overestimation by $\sim$2 dex in stellar mass and by up to $\sim$1 and $\sim$4 dex in the light- and mass-weighted mean stellar age, respectively, whereas the light- and mass-weighted mean stellar metallicity are underestimated by up to $\sim$0.3 and $\sim$0.6 dex, respectively. Other fitting set-ups including either a single PL or multiple PLs in the base reveal, on average, much lower unsystematic uncertainties of the order of those typically found when fitting purely stellar SEDs with stellar templates, however, reaching locally up to $\sim$1, 3 and 0.4 dex in mass, age and metallicity, respectively. Our results underscore the importance of an accurate modelling of the AGN spectral contribution in PSS fits as a minimum requirement for the recovery of the physical and evolutionary properties of stellar populations in active galaxies.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1705.04224/full.md

## Figures

22 figures with captions in the complete paper: https://tomesphere.com/paper/1705.04224/full.md

## References

103 references — full list in the complete paper: https://tomesphere.com/paper/1705.04224/full.md

---
Source: https://tomesphere.com/paper/1705.04224