Cosmological constraints from the power spectrum of eBOSS emission line galaxies
Abstract
We present cosmological parameter measurements from the effective field theory-based full-shape analysis of the power spectrum of emission line galaxies (ELGs). First, we perform extensive tests on simulations and determine appropriate scale cuts for the perturbative description of the ELG power spectrum. We study in detail non-linear redshift-space distortions (``fingers-of-God'') for this sample and show that they are somewhat weaker than those of luminous red galaxies. This difference is not significant for current data, but may become important for future surveys like Euclid/DESI. Then we analyze recent measurements of the ELG power spectrum from the extended Baryon acoustic Oscillation Spectroscopic Survey (eBOSS) within the model. Combined with the BBN baryon density prior, the ELG pre- and post-reconstructed power spectra alone constrain the matter density m=0.257-0.045+0.031, the current mass fluctuation amplitude σ8=0.571-0.076+0.052, and the Hubble constant H0=84.5-7+5.8 km/s/Mpc (all at 68\% CL). Combining with other full-shape and BAO data we measure m=0.327-0.016+0.014, σ8=0.69-0.045+0.038, and H0=68.6-1.1+1 km/s/Mpc. The total neutrino mass is constrained to be M tot<0.63 eV (95\% CL) from the BBN, full-shape and BAO data only. Finally, we discuss the apparent 3σ discrepancy in the inferred clustering amplitude between our full shape analysis and the cosmic microwave background data.
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