We present the first identification of large-scale structures ( LSSs) at z < 1: 1 in the Cosmic Evolution Survey ( COSMOS). The structures are identified from adaptive smoothing of galaxy counts in the pseudo-3D space ( alpha, delta, z) using the COSMOS photometric redshift catalog. The technique is tested on a simulation including galaxies distributed in model clusters and a field galaxy population-recovering structures on all scales from 10 to 200 without a priori assumptions for the structure size or density profile. The COSMOS photometric redshift catalog yields a sample of 1.5x 10(5) galaxies with redshift accuracy, Delta z(FWHM)/( 1+z) <= 0.1 at z < 1.1 down to I-AB <= 25 mag. Using this sample of galaxies, we identify 42 LSSs and clusters. Projected surface-density maps for the structures indicate multiple peaks and internal structure in many of the most massive LSSs. The stellar masses ( determined from the galactic SEDs) for the LSSs range from M-* similar to 10(11) up to similar to 3 x 10(13) M-circle dot. Five LSSs have total stellar masses exceeding 10(13)M(circle dot). ( Total masses including nonstellar baryons and dark matter are expected to be similar to 50-100 times greater.) The derived mass function for the LSSs is consistent ( within the expected Poisson and cosmic variances) with those derived from optical and X-ray studies at lower redshift. To characterize structure evolution and for comparison with simulations, we compute a new statistic: the area filling factor as a function of the overdensity value compared to the mean at surface overdensity ( f(A) [Sigma/(Sigma) over bar( z)])). The observationally determined fA has less than 1% of the surface area ( in each redshift slice) with overdensities exceeding 10: 1, and evolution to higher overdensities is seen at later epochs ( lower z); both characteristics are in good agreement with what we find using similar processing on the Millennium Simulation. Although similar variations in the filling factors as a function of overdensity and redshift are seen in the observations and simulations, we do find that the observed distributions reach higher overdensities than the simulation, perhaps indicating overmerging in the simulation. All of the LSSs show a dramatic preference for earlier SED type galaxies in the denser regions of the structures, independent of redshift. The SED types in the central 1 and 1-5 Mpc regions of each structure average about one SED type earlier than the mean type at the same redshift, corresponding to a stellar population age difference of similar to 2-4 Gyr at z =0.3 - 1. We also investigate the evolution of key galactic properties mass, luminosity, SED, and star formation rate ( SFR) - with redshift and environmental density as derived from overdensities in the full pseudo-3D cube. Both the maturity of the stellar populations and the "downsizing'' of star formation in galaxies vary strongly with redshift ( epoch) and environment. For a very broad mass range ( 10(10)-10(12) M (circle dot)), we find that galaxies in dense environments tend to be older; this is not just restricted to the most massive galaxies.
Large structures and galaxy evolution in COSMOS at z < 1.1 / N. Scoville, H. Aussel, A. Benson, A. Blain, D. Calzetti, P. Capak, R.S. Ellis, A. El-Zant, A. Finoguenov, M. Giavalisco, L. Guzzo, G. Hasinger, J. Koda, O. Le Fèvre, R. Massey, H.J. Mccracken, B. Mobasher, A. Renzini, J. Rhodes, M. Salvato, D.B. Sanders, S.S. Sasaki, E. Schinnerer, K. Sheth, P.L. Shopbell, Y. Taniguchi, J.E. Taylor, D.J. Thompson. - In: ASTROPHYSICAL JOURNAL SUPPLEMENT SERIES. - ISSN 0067-0049. - 172:1(2007), pp. 150-181. [10.1086/516751]
Large structures and galaxy evolution in COSMOS at z < 1.1
L. Guzzo;
2007
Abstract
We present the first identification of large-scale structures ( LSSs) at z < 1: 1 in the Cosmic Evolution Survey ( COSMOS). The structures are identified from adaptive smoothing of galaxy counts in the pseudo-3D space ( alpha, delta, z) using the COSMOS photometric redshift catalog. The technique is tested on a simulation including galaxies distributed in model clusters and a field galaxy population-recovering structures on all scales from 10 to 200 without a priori assumptions for the structure size or density profile. The COSMOS photometric redshift catalog yields a sample of 1.5x 10(5) galaxies with redshift accuracy, Delta z(FWHM)/( 1+z) <= 0.1 at z < 1.1 down to I-AB <= 25 mag. Using this sample of galaxies, we identify 42 LSSs and clusters. Projected surface-density maps for the structures indicate multiple peaks and internal structure in many of the most massive LSSs. The stellar masses ( determined from the galactic SEDs) for the LSSs range from M-* similar to 10(11) up to similar to 3 x 10(13) M-circle dot. Five LSSs have total stellar masses exceeding 10(13)M(circle dot). ( Total masses including nonstellar baryons and dark matter are expected to be similar to 50-100 times greater.) The derived mass function for the LSSs is consistent ( within the expected Poisson and cosmic variances) with those derived from optical and X-ray studies at lower redshift. To characterize structure evolution and for comparison with simulations, we compute a new statistic: the area filling factor as a function of the overdensity value compared to the mean at surface overdensity ( f(A) [Sigma/(Sigma) over bar( z)])). The observationally determined fA has less than 1% of the surface area ( in each redshift slice) with overdensities exceeding 10: 1, and evolution to higher overdensities is seen at later epochs ( lower z); both characteristics are in good agreement with what we find using similar processing on the Millennium Simulation. Although similar variations in the filling factors as a function of overdensity and redshift are seen in the observations and simulations, we do find that the observed distributions reach higher overdensities than the simulation, perhaps indicating overmerging in the simulation. All of the LSSs show a dramatic preference for earlier SED type galaxies in the denser regions of the structures, independent of redshift. The SED types in the central 1 and 1-5 Mpc regions of each structure average about one SED type earlier than the mean type at the same redshift, corresponding to a stellar population age difference of similar to 2-4 Gyr at z =0.3 - 1. We also investigate the evolution of key galactic properties mass, luminosity, SED, and star formation rate ( SFR) - with redshift and environmental density as derived from overdensities in the full pseudo-3D cube. Both the maturity of the stellar populations and the "downsizing'' of star formation in galaxies vary strongly with redshift ( epoch) and environment. For a very broad mass range ( 10(10)-10(12) M (circle dot)), we find that galaxies in dense environments tend to be older; this is not just restricted to the most massive galaxies.
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