The 2dF Galaxy Redshift Survey: power-spectrum analysis of the final data set and cosmological implications

Shaun Cole; Will J. Percival; J. A. Peacock; P. Norberg; C. M. Baugh; Carlos S. Frenk; I. K. Baldry; Joss Bland‐Hawthorn; Terry Bridges; Russell Cannon; Matthew Colless; C. A. Collins; W. J. Couch; N. J. G. Cross; Gavin Dalton; V. R. Eke; Roberto De Propris; Simon P. Driver; G. Efstathiou; Richard S. Ellis; Karl Glazebrook; Carole Jackson; Adrian Jenkins; O. Lahav; Ian Lewis; S. L. Lumsden; S. Maddox; Darren S. Madgwick; B. A. Peterson; William J. Sutherland; Keith Taylor; The 2dFGRS Team

doi:10.1111/j.1365-2966.2005.09318.x

The 2dF Galaxy Redshift Survey: power-spectrum analysis of the final data set and cosmological implications

Shaun Cole(Durham University), Will J. Percival(Royal Observatory), J. A. Peacock(Royal Observatory), P. Norberg(ETH Zurich), C. M. Baugh(Durham University), Carlos S. Frenk(Durham University), I. K. Baldry(Johns Hopkins University), Joss Bland‐Hawthorn(Australian Astronomical Observatory), Terry Bridges(Queen's University), Russell Cannon(Australian Astronomical Observatory), Matthew Colless(Australian Astronomical Observatory), C. A. Collins(Liverpool John Moores University), W. J. Couch(UNSW Sydney), N. J. G. Cross(Johns Hopkins University), Gavin Dalton(Rutherford Appleton Laboratory), V. R. Eke(Durham University), Roberto De Propris(University of Bristol), Simon P. Driver(Australian National University), G. Efstathiou(University of Cambridge), Richard S. Ellis(California Institute of Technology), Karl Glazebrook(Johns Hopkins University), Carole Jackson(Australia Telescope National Facility), Adrian Jenkins(Durham University), O. Lahav(University College London), Ian Lewis(University of Oxford), S. L. Lumsden(University of Leeds), S. Maddox(University of Nottingham), Darren S. Madgwick(University of Cambridge), B. A. Peterson(Australian National University), William J. Sutherland(University of Cambridge), Keith Taylor(California Institute of Technology), The 2dFGRS Team

Monthly Notices of the Royal Astronomical Society

August 26, 2005

10.1111/j.1365-2966.2005.09318.x

Cited by 2,090Open Access

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Abstract

We present a power-spectrum analysis of the final 2dF Galaxy Redshift Survey (2dFGRS), employing a direct Fourier method. The sample used comprises 221 414 galaxies with measured redshifts. We investigate in detail the modelling of the sample selection, improving on previous treatments in a number of respects. A new angular mask is derived, based on revisions to the photometric calibration. The redshift selection function is determined by dividing the survey according to rest-frame colour, and deducing a self-consistent treatment of k-corrections and evolution for each population. The covariance matrix for the power-spectrum estimates is determined using two different approaches to the construction of mock surveys, which are used to demonstrate that the input cosmological model can be correctly recovered. We discuss in detail the possible differences between the galaxy and mass power spectra, and treat these using simulations, analytic models and a hybrid empirical approach. Based on these investigations, we are confident that the 2dFGRS power spectrum can be used to infer the matter content of the universe. On large scales, our estimated power spectrum shows evidence for the 'baryon oscillations' that are predicted in cold dark matter (CDM) models. Fitting to a CDM model, assuming a primordial n s = 1 spectrum, h = 0.72 and negligible neutrino mass, the preferred parameters are m h = 0.168 0.016 and a baryon fraction b / m = 0.185 0.046 (1 errors). The value of m h is 1 lower than the 0.20 0.03 in our 2001 analysis of the partially

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