UNITSIM-Galaxies: data release and clustering of emission-line galaxies

TL;DR

This paper presents a new set of simulated galaxy catalogues with emission-line properties, designed to support the analysis of upcoming large-scale structure surveys like Euclid, including their clustering and bias characteristics.

Contribution

It introduces a large, physically motivated galaxy catalogue suite with emission-line data, tailored for Euclid survey predictions and analysis.

Findings

Galaxy bias increases from ~1 at z~0.5 to ~4 at z~2.

Catalogues include dust attenuation and flux threshold adjustments.

Model properties are publicly available.

Abstract

New surveys such as ESA's Euclid mission are planned to map with unprecedented precision the large-scale structure of the Universe by measuring the 3D positions of tens of millions of galaxies. It is necessary to develop theoretically modelled galaxy catalogues to estimate the expected performance and to optimise the analysis strategy of these surveys. We populate two pairs of (1 Gpc/h)^3 volume dark-matter-only simulations from the UNIT project with galaxies using the SAGE semi-analytic model of galaxy formation, coupled to the photoionisation model get_emlines to estimate their H_alpha emission. These catalogues represent a unique suite that includes galaxy formation physics and - thanks to the fixed-pair technique used - an effective volume of ~(5 Gpc/h)^3, which is several times larger than the Euclid survey. We present the performance of these data and create five additional emission-line galaxy (ELG) catalogues by applying a dust attenuation model as well as adjusting the flux threshold as a function of redshift in order to reproduce Euclid-forecast dN/dz values. As a first application, we study the abundance and clustering of those model H_alpha ELGs: for scales greater than ~5 Mpc/h, we find a scale-independent bias with a value of $b\sim 1$ at redshift z ~ 0.5, that can increase nearly linearly to $b\sim 4$ at $z\sim 2$, depending on the ELG catalogue. Model galaxy properties, including their emission-line fluxes (with and without dust extinction) are publicly available.