TY - JOUR
T1 - The DEEP2 galaxy redshift survey
T2 - Clustering of galaxies in early data
AU - Coil, Alison L.
AU - Davis, Marc
AU - Madgwick, Darren S.
AU - Newman, Jeffrey A.
AU - Conselice, Christopher J.
AU - Cooper, Michael
AU - Ellis, Richard S.
AU - Faber, S. M.
AU - Finkbeiner, Douglas P.
AU - Guhathakurta, Puragra
AU - Kaiser, Nick
AU - Koo, David C.
AU - Phillips, Andrew C.
AU - Steidel, Charles C.
AU - Weiner, Benjamin J.
AU - Willmer, Christopher N.A.
AU - Yan, Renbin
PY - 2004/7/10
Y1 - 2004/7/10
N2 - We measure the two-point correlation function ε(rp, π) in a sample of 2219 galaxies between z = 0.7 and 1.35 to a magnitude limit of RAB = 24.1 from the first season of the DEEP2 Galaxy Redshift Survey. From ε(rp, π) we recover the real-space correlation function, ε(r), which we find can be approximated within the errors by a power law, ε(r) = (r/r0]-γ, on scales ∼0.1-10 h-1 Mpc. In a sample with an effective redshift of z eff = 0.82, for a ACDM cosmology we find r0 = 3.53 ± 0.81 h-1 Mpc (comoving) and γ = 1.66 ± 0.12, while in a higher redshift sample with zeff = 1.14 we find r 0 = 3.12 ±0.72 h-1 Mpc and γ = 1.66 ± 0.12. These errors are estimated from mock galaxy catalogs and are dominated by the cosmic variance present in the current data sample. We find that red, absorption-dominated, passively evolving galaxies have a larger clustering scale length, r0, than blue, emission-line, actively star-forming galaxies. Intrinsically brighter galaxies also cluster more strongly than fainter galaxies at z ≃ 1. Our results imply that the DEEP2 galaxies have an effective bias b = 0.96 ± 0.13 if σ8DM = 1 today or b = 1.19 = 0.16 if σ8DM = 0.8 today. This bias is lower than that predicted by semianalytic simulations at z ≃ 1, which may be the result of our R-band target selection. We discuss possible evolutionary effects within our survey volume, and we compare our results with galaxy-clustering studies at other redshifts, noting that our star-forming sample at z ≃ 1 has selection criteria very similar to the Lyman break galaxies at z ≃ 3 and that our red, absorption-line sample displays a clustering strength comparable to the expected clustering of the Lyman break galaxy descendants at z ≃ 1. Our results demonstrate that galaxy-clustering properties as a function of color, spectral type, and luminosity seen in the local universe were largely in place by z ≃ 1.
AB - We measure the two-point correlation function ε(rp, π) in a sample of 2219 galaxies between z = 0.7 and 1.35 to a magnitude limit of RAB = 24.1 from the first season of the DEEP2 Galaxy Redshift Survey. From ε(rp, π) we recover the real-space correlation function, ε(r), which we find can be approximated within the errors by a power law, ε(r) = (r/r0]-γ, on scales ∼0.1-10 h-1 Mpc. In a sample with an effective redshift of z eff = 0.82, for a ACDM cosmology we find r0 = 3.53 ± 0.81 h-1 Mpc (comoving) and γ = 1.66 ± 0.12, while in a higher redshift sample with zeff = 1.14 we find r 0 = 3.12 ±0.72 h-1 Mpc and γ = 1.66 ± 0.12. These errors are estimated from mock galaxy catalogs and are dominated by the cosmic variance present in the current data sample. We find that red, absorption-dominated, passively evolving galaxies have a larger clustering scale length, r0, than blue, emission-line, actively star-forming galaxies. Intrinsically brighter galaxies also cluster more strongly than fainter galaxies at z ≃ 1. Our results imply that the DEEP2 galaxies have an effective bias b = 0.96 ± 0.13 if σ8DM = 1 today or b = 1.19 = 0.16 if σ8DM = 0.8 today. This bias is lower than that predicted by semianalytic simulations at z ≃ 1, which may be the result of our R-band target selection. We discuss possible evolutionary effects within our survey volume, and we compare our results with galaxy-clustering studies at other redshifts, noting that our star-forming sample at z ≃ 1 has selection criteria very similar to the Lyman break galaxies at z ≃ 3 and that our red, absorption-line sample displays a clustering strength comparable to the expected clustering of the Lyman break galaxy descendants at z ≃ 1. Our results demonstrate that galaxy-clustering properties as a function of color, spectral type, and luminosity seen in the local universe were largely in place by z ≃ 1.
KW - Galaxies: distances and redshifts
KW - Galaxies: evolution
KW - Galaxies: high-redshift
KW - Galaxies: statistics
KW - Large-scale structure of universe
KW - Surveys
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U2 - 10.1086/421337
DO - 10.1086/421337
M3 - Article
AN - SCOPUS:3242776250
SN - 0004-637X
VL - 609
SP - 525
EP - 538
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2 I
ER -