http://arxiv.org/abs/1909.07951
The precision of the cosmological data allows us to accurately approximate the predictions for cosmological observables by Taylor expanding up to a low order the dependence on the cosmological parameters around a reference cosmology. By applying this observation to the redshift-space one-loop galaxy power spectrum of the Effective Field Theory of Large-Scale Structure, we analyze the BOSS DR12 data by scanning over all the parameters of $\Lambda$CDM cosmology with massive neutrinos. We impose several sets of priors, the widest of which is a Big Bang Nucleosynthesis prior on the current fractional energy density of baryons, $\Omega_b h^2$, and a 20\% flat prior on $n_s$. In this case we measure the primordial amplitude of the power spectrum, $A_s$, the abundance of matter, $\Omega_m$, and the Hubble parameter, $H_0$, to about $15\%$, $5.0\%$ and $1.9\%$ respectively, obtaining $\ln ( 10^{10} A_s) = 2.87\pm 0.15$, $\Omega_m=0.316\pm 0.016$, $H_0=69.0\pm 1.3$ km/(s Mpc) at 68\% confidence level. A public code is released with this preprint.
T. Colas, G. D’Amico, L. Senatore, et. al.
Wed, 18 Sep 19
60/64
Comments: 15 + 7 pages, 13 figures. Code publicly available
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