Structure on the largest scales: constraints from the isotropy of radio source counts

Details Structure on the largest scales: constraints from the isotropy of radio source counts Structure on the largest scales: constraints from the isotropy of radio source counts

Feb 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995mnras.272..678b&link_type=abstract

Monthly Notices of the Royal Astronomical Society, Volume 272, Issue 3, pp. 678-698.

Astronomy and Astrophysics

Astronomy

15

Surveys-Galaxies, Active-Galaxies, Clusters, General-Large-Scale Structure Of Universe-Radio Continuum, Galaxies.

Scientific paper

We show how the size of the largest scales of cellular structure in the Universe may be deduced from the anisotropy of the sky distribution of extragalactic radio sources. Using a Voronoi tessellation to represent the skeleton structure of the galaxy distribution, together with an evolving luminosity function for the mean space density of extragalactic radio sources, we have calculated the source-count anisotropy expected as a function of tessellation scale rho^-1/3, radio-survey depth and survey angular diameter. Deep pencil-beam surveys of opening angle <~0.1 rad provide strong limits on rho. We find, for example, that, if the density parameter Omega=1 and rho^-1/3~100 h^-1 Mpc, significant (>√N) area-to-area fluctuations are expected for counts from pencil-beam surveys slightly deeper than the deepest yet achieved, S_1 GHz<0.1 mJy for 0 deg.5-diameter survey, S_1 GHz<3 mJy for a 5 deg-diameter survey. The analysis demonstrates (a) the way in which deep radio-survey data can be used to constrain large-scale structure, and (b) the care which must be exercised in defining cosmologically representative samples of faint radio sources. We review the isotropy (or otherwise) of (1) large-area radio surveys, typically covering several steradians to ~1 Jy, and (2) pencil-beam radio surveys to mJy and muJy levels. Large-area surveys limit rho^-1/3<~250 h^-1 Mpc (if Omega=1). The counts from the 5C pencil-beam surveys (3000 sources in 10 fields to S_408 MHz>10 mJy) limit rho^-1/3<~150 h^-1 Mpc (for Omega=1). A similar rho^-1/3<~100 h^-1 Mpc can be inferred from the isotropy (or marginal anisotropy) of deep VLA and WSRT radio surveys. We show how spectroscopy of low-redshift (z<0.4) optical identifications from deep pencil-beam surveys can be used to trace large-scale structure directly, and we illustrate this with some results from the 5C12 surveys.

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