Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-02-17
Astronomy and Astrophysics
Astrophysics
15 pages, 17 figures
Scientific paper
10.1111/j.1365-2966.2004.08217.x
We present a new CCD survey of galaxies within the N and S strips of the 2dFGRS areas. We use the new CCD data to check the photographic photometry scales of the 2dFGRS, APMBGC, APM-Stromlo Redshift Survey, Durham-UKST (DUKST) survey, Millenium Galaxy Catalogue (MGC) and Sloan Digital Sky Survey (SDSS). We find evidence for scale and zero-point errors in the 2dFGRS northern field, DUKST and APM data of 0.10, 0.24 and 0.31 mag. respectively; we find excellent agreement with the MGC and SDSS photometry. We find conclusive evidence that the S counts with B<17 mag are down by ~30% relative to both the N counts and to the models of Metcalfe et al. We further compare the n(z) distributions from the B<17 mag. DUKST and B<19.5 2dFGRS redshift surveys using the corrected photometry. While the N n(z) from 2dFGRS appears relatively homogeneous over its whole range, the S n(z) shows a 30% deficiency out to z=0.1; at higher redshifts it agrees much better with the N n(z) and the homogeneous model n(z). The DUKST n(z) shows that the S `hole' extends over a 20 by 75 degree squared area. The troughs with z<0.1 in the DUKST n(z) appear deeper than for the fainter 2dFGRS data. This may be evidence that the local galaxy distribution is biased on >50 h-1 Mpc scales which is unexpected in a Lambda-CDM cosmology. Finally, since the Southern local void persists over the full area of the APM and APMBGC with a ~25% deficiency in the counts below B~17, this means that its extent is ~300 h-1 Mpc by 300 h-1 Mpc on the sky as well as ~300 h-1 Mpc in the redshift direction. Such a 25% deficiency extending over ~10^7 h-3 Mpc^3 may imply that the galaxy correlation function's power-law behaviour extends to \~150 h-1 Mpc with no break and show more excess large-scale power than detected in the 2dFGRS correlation function or expected in the Lambda-CDM cosmology.
Busswell Geoff S.
Fong Richard
Frith William J.
Metcalfe Nigel
Outram P. J.
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