# Active Galactic Nuclei and their Large-scale Structure: an eROSITA mock   catalogue

**Authors:** J. Comparat, A. Merloni, M. Salvato, K. Nandra, T. Boller, A., Georgakakis, A. Finoguenov, T. Dwelly, J. Buchner, A. Del Moro, N. Clerc, Y., Wang, G. Zhao, F. Prada, G. Yepes, M. Brusa, M. Krumpe, T. Liu

arXiv: 1901.10866 · 2019-06-07

## TL;DR

This paper presents a detailed mock catalogue of X-ray selected AGN for the upcoming eROSITA survey, enabling improved cosmological and galaxy evolution studies through simulated distributions, spectral modeling, and follow-up strategies.

## Contribution

It introduces a high-fidelity, full-sky mock catalogue of X-ray AGN that reproduces observed luminosity functions and flux distributions, aiding future survey planning and analysis.

## Key findings

- Reproduces X-ray AGN luminosity function within ±5%
- Predicts distributions of AGN in sky coordinates and fluxes
- Estimates spectroscopic follow-up requirements and clustering measurement accuracy

## Abstract

In the context of the upcoming SRG/eROSITA survey, we present an N-body simulation-based mock catalogue for X-ray selected AGN samples. The model reproduces the observed hard X-ray AGN luminosity function (XLF) and the soft X-ray logN-logS from redshift 0 to 6. The XLF is reproduced to within $\pm5\%$ and the logN-logS to within $\pm20\%$. We develop a joint X-ray -- optical extinction and classification model. We adopt a set of empirical spectral energy distributions to predict observed magnitudes in the UV, optical and NIR. With the latest eROSITA all sky survey sensitivity model, we create a high-fidelity full-sky mock catalogue of X-ray AGN. It predicts their distributions in right ascension, declination, redshift and fluxes. Using empirical medium resolution optical spectral templates and an exposure time calculator, we find that $1.1\times10^6$ ($4\times10^5$) fiber-hours are needed to follow-up spectroscopically from the ground the detected X-ray AGN with an optical magnitude $21<r<22.8$ ($22.8<r<25$) with a 4-m (8-m) class multi-object spectroscopic facility. We find that future clustering studies will measure the AGN bias to the percent level at redshift $z<1.2$ and should discriminate possible scenarios of galaxy-AGN co-evolution. We predict the accuracy to which the baryon acoustic oscillation standard ruler will be measured using X-ray AGN: better than 3\% for AGN between redshift 0.5 to 3 and better than 1\% using the Ly$\alpha$ forest of X-ray QSOs discovered between redshift 2 and 3. eROSITA will provide an outstanding set of targets for future galaxy evolution and cosmological studies.

## Full text

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## Figures

67 figures with captions in the complete paper: https://tomesphere.com/paper/1901.10866/full.md

## References

139 references — full list in the complete paper: https://tomesphere.com/paper/1901.10866/full.md

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Source: https://tomesphere.com/paper/1901.10866