The one-dimensional Ly-alpha forest power spectrum from BOSS

Abstract

We have developed two independent methods to measure the one-dimensional power spectrum of the transmitted flux in the Lyman-α forest. The first method is based on a Fourier transform, and the second on a maximum likelihood estimator. The two methods are independent and have different systematic uncertainties. The determination of the noise level in the data spectra was subject to a novel treatment, because of its significant impact on the derived power spectrum. We applied the two methods to 13,821 quasar spectra from SDSS-III/BOSS DR9 selected from a larger sample of over 60,000 spectra on the basis of their high quality, large signal-to-noise ratio, and good spectral resolution. The power spectra measured using either approach are in good agreement over all twelve redshift bins from <z> = 2.2 to <z> = 4.4, and scales from 0.001 (km/s)-1 to 0.02 (km/s)-1. We determine the methodological and instrumental systematic uncertainties of our measurements. We provide a preliminary cosmological interpretation of our measurements using available hydrodynamical simulations. The improvement in precision over previously published results from SDSS is a factor 2--3 for constraints on relevant cosmological parameters. For a model and using a constraint on H0 that encompasses measurements based on the local distance ladder and on CMB anisotropies, we infer σ8 =0.830.03 and ns= 0.970.02 based on Hi absorption in the range 2.1<z<3.7.