Radio-optical synergies at high redshift to constrain primordial non-gaussianity
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Date
2024
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Physics
Abstract
We apply the multi-tracer technique to test the possibility of improved constraints on the amplitude of local primordial non-Gaussianity, fNL, in the cosmic large-scale structure. A precise measurement of fNL is difficult because the effects of non-Gaussianity mostly arise on the largest scales, which are heavily affected by the low statistical sampling commonly referred to as cosmic variance. The multi-tracer approach suppresses cosmic variance and we implement it by combining the information from next-generation galaxy surveys in the optical/near-infrared band and neutral hydrogen (Hi) intensity mapping surveys in the radio band. High-redshift surveys enhance the precision on fNL, due to the larger available volume, and Hi intensity mapping surveys can naturally reach high redshifts. In order to extend the redshift coverage of a galaxy survey, we consider different emission-line galaxy populations, focusing on the Hα line at low redshift and on oxygen lines at higher redshift. By doing so, we cover a wide redshift range 1 ≲ z ≲ 4. To assess the capability of our approach, we implement a synthetic-data analysis by means of Markov chain Monte Carlo sampling of the (cosmological+nuisance) parameter posterior, to evaluate the constraints on fNL obtained in different survey configurations. We find significant improvements from the multi-tracer technique: the full data set leads to a precision of σ(fNL) < 1.
Description
Keywords
Cosmological parameters from LSS, Non-gaussianity, Power spectrum, Redshift surveys, Radio-optical synergies
Citation
Squarotti, M.B., Camera, S. and Maartens, R., 2024. Radio-optical synergies at high redshift to constrain primordial non-Gaussianity. Journal of Cosmology and Astroparticle Physics, 2024(02), p.043.