Simulating MOS science on the ELT: Lyα forest tomography

Abstract

Mapping of the large-scale structure through cosmic time has numerous applications in the studies of cosmology and galaxy evolution. At z > 2, the structure can be traced by the neutral intergalactic medium (IGM) by way of observing the Lyα, forest towards densely-sampled lines-of-sight of bright background sources, such as quasars and star forming galaxies. We investigate the scientific potential of MOSAIC, a planned multi-object spectrograph on the European Extremely Large Telescope (ELT), for the 3D mapping of the IGM at z 3. We simulate a survey of 3 z 4 galaxies down to a limiting magnitude of mr 25.5 mag in an area of 1 degree2 in the sky. Galaxies and their spectra (including the line-of-sight Lyα absorption) are taken from the lightcone extracted from the Horizon-AGN cosmological hydrodynamical simulation. The quality of the reconstruction of the original density field is studied for different spectral resolutions and signal-to-noise ratios of the spectra. We demonstrate that the minimum S/N (per resolution element) of the faintest galaxies that such survey has to reach is S/N = 4. We show that a survey with such sensitivity enables a robust extraction of cosmic filaments and the detection of the theoretically-predicted galaxy stellar mass and star-formation rate gradients towards filaments. By simulating the realistic performance of MOSAIC we obtain S/N(T obs, R, mr) scaling relations. We estimate that 35~(65) nights of observation time are required to carry out the survey with the instrument's high multiplex mode and with the spectral resolution of R=1000~(2000). A survey with a MOSAIC-concept instrument on the ELT is found to enable the mapping of the IGM at z > 3 on Mpc scales, and as such will be complementary to and competitive with other planned IGM tomography surveys. [abridged]