Presentation is loading. Please wait.

Presentation is loading. Please wait.

High Redshift Massive Galaxies (BzKs & EIS-Deep3a and COSMOS Xu KONG collaborators :

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "High Redshift Massive Galaxies (BzKs & EIS-Deep3a and COSMOS Xu KONG collaborators :"— Presentation transcript:

1 High Redshift Massive Galaxies (BzKs & EROs) @ EIS-Deep3a and COSMOS Xu KONG (xkong@optik.mtk.nao.ac.jp NAOJ)xkong@optik.mtk.nao.ac.jp collaborators : E. Daddi, N. Arimoto, A. Renzini, K. Ohta , T. Broadhurst , A. Cimatti , C. Ikuta , L. Costa, L. Olsen, M. Onodera , N. Tamura 2005-05-25 @ Kyoto

2 1. Introduction NIR Surveys –HDF (2x5.3 arcmin 2 ) UDF (5.76 arcmin 2 ) SDF (4.0 arcmin 2 ) –K20 (52.0 arcmin 2 ) SXDF (114.0 arcmin 2 ) GOODS (160.0arcmin 2 ) Limited: small sky area (high-z galaxy clustering) Step forward : ~1000 arcmin 2 NIR survey ~ COSMOS !!

3 2. EIS-Deep3a Fields –Deep3a-F: 320 arcmin 2 (Ks<20.0 mag) –Daddi-F : 600 arcmin 2 (Ks<18.8 mag); 450 arcmin 2 (Ks<19.2 mag) Observation : Image + Spectroscopy –Imaging : optical + NIR (Subaru +NTT) NAOJ 8.2m SUBARU telescope: B,R,I and z' 2003 ESO 3.5m NTT telescope : J and Ks 2001 BRIzJK and U877,U841,V843 –Spectroscopy : optical + NIR (VLT + Subaru) hundreds optical spectra, >10 NIR spectra

4 3. Photometric Catalog NIR : Ks band catalog, 10 4 objects  BzKs & EROs K-band number counts

5 4.1 High redshift galaxies Daddi et al. (2004, ApJ, 617,746) K20 Survey : VLT Large Program –50. arcmin 2 –~ 500 spectra –SFGs BzK> -0.2 BzK=(z-K) AB -(B-z) AB BzK >-0.2 : sBzKs BzK 2.5 : pBzKs sBzKspBzKs a) BzKs at 1.4≤z≤2.5 b) EROs R-K>5.0

6 High-z Galaxies In Our fields Passive galaxies at z>1.0 (pBzKs) EROs: R-K>5.0 SFGs at z>1.4 (sBzKs) Galaxies at z<1.4 Stars Deep3a-F: 380 sBzKs 122 pBzKs 750 EROs Daddi-F: 120 sBzKs 40 pBzKs 350 EROs

7 High-z galaxy number counts K=20mag :sBzKs 1.20/arcmin 2 ; pBzKs 0.38/arcmin 2

8 5.1 Photometric Redshift VLT Spectroscopic z Photometric z

9 Redshift (photo_z) Distribution BzKs EROs z ~1.8 z ~1.0 BzK selection is a quite powerful way to separate galaxies at 1.4<z<2.5

10 BzKs are strong clustering! 5.2 Clustering Clustering of field galaxies Amplitudes ~ published values Clustering of EROs A ~ published values K fainter, A decrease Clustering of BzKs A is large K fainter, A decrease Landy & Szalay (1993)  (DD-2DR+RR)/RR = A   

11 sBzKs are dusty galaxies : E(B-V) ~ 0.4 sBzKs have high SFRs : SFR ~ 190 M  /yr Most BzKs are massive galaxies : M ~ 1.0E11 M  SFRD at z~2 : 0.059 M  /yr Mass densities : logρ * =7.7 M  Mpc -3 M*>1.0e11 : n(pBzKs) = n(pBzKs) = 0.5 n(E/S0) = 4.0*10 -4 Mpc -3 5.4 E(B-V) SFR Mass

12 Conclusion BzK selection is a quite powerful way to separate galaxies at 1.4<z<2.5. BzKs are likely to be possible precursors of z ~ 1 EROs and z=0 elliptical galaxies. Massive, high-z, strong clustering, high SFR, and high metallicity. Kong, Daddi, Arimoto, Renzini, et al. 2005, submitted to ApJ.

13 Mobasher & Capak May05 (i<26) Sample selection: RA,DEC: 1.3x1.3 Ks<19.8 Mask=0 Non-saturated Subaru B Subaru z’ KPNO Ks mask

14 BzKs in COSMOS

15 sBzKs (K<19.8 in Vega) 10% low redshift BzKs (z<1.0) What are the reasons? More templates? J or H band catalog? mask?

16 Number and sky density Deep3aCOSMOS Ks20.019.8 sBzKs3805300 1.2/arcmin^20.9/arcmin^2 pBzKs120353 0.38/arcmin^20.06/arcmin^2 ? Sky density of pBzKs in COSMOS is less than that of in Deep3a i<26 mag catalog be used  full catalog

17 Clustering of sBzKs

18 EROs in COSMOS (rp-Ks>3.5)

19 sBzKs EROs

20 We will do on COSMOS … BzKs : 1.4<z<2.5 High-z cluster candidates Morphology of BzKs Hubble sequence at z~2 LF from z=1.4 to 2.5 We are working on COSMOS … sBzKs/pBzKs/EROs sampling Number counts of BzKs/EROs Clustering for BzKs/EROs Cosmic variances of clustering E(B-V), SFR, stellar mass of sBzKs, SFRD at z~2

21

22

23

Download ppt "High Redshift Massive Galaxies (BzKs & EIS-Deep3a and COSMOS Xu KONG collaborators :"

Similar presentations

Multi-wavelength Observations of Galaxies at z>~2 Mauro Giavalisco (UMass) + The GOODS Team + The COSMOS Team.

Multi-wavelength Observations of Galaxies at z>~2 Mauro Giavalisco (UMass) + The GOODS Team + The COSMOS Team.
Properties of high redshift galaxies from 24 μm images Paola Santini Università di Roma “La Sapienza” Osservatorio Astronomico di Roma Scuola nazionale.

Properties of high redshift galaxies from 24 μm images Paola Santini Università di Roma “La Sapienza” Osservatorio Astronomico di Roma Scuola nazionale.
Kinematics/Dynamics  Chemistry/dust  Stellar populations  Searches for z ~ 6-7 « Hot » scientific researches at VLT in cosmology Mass Galaxy formation/gas.

Kinematics/Dynamics  Chemistry/dust  Stellar populations  Searches for z ~ 6-7 « Hot » scientific researches at VLT in cosmology Mass Galaxy formation/gas.
COSMOS Kyoto meeting May 2005 Obscured AGN in the COSMOS field Andrea Comastri (INAF – Bologna) on behalf of the XMM-COSMOS team.

COSMOS Kyoto meeting May 2005 Obscured AGN in the COSMOS field Andrea Comastri (INAF – Bologna) on behalf of the XMM-COSMOS team.
Searching for massive galaxy progenitors with GMASS (Galaxy Mass Assembly ultradeep Spectroscopic Survey) (a progress report) Andrea Cimatti (INAF-Arcetri)

Searching for massive galaxy progenitors with GMASS (Galaxy Mass Assembly ultradeep Spectroscopic Survey) (a progress report) Andrea Cimatti (INAF-Arcetri)
LBG s at z~5 K. Ohta (Kyoto Univ.) with I. Iwata (NAOJ, Okayama) M. Ando (Kyoto Univ.) M. Akiyama (NAOJ, Subaru) N. Tamura (Durham, UK) K. Aoki (NAOJ,

LBG s at z~5 K. Ohta (Kyoto Univ.) with I. Iwata (NAOJ, Okayama) M. Ando (Kyoto Univ.) M. Akiyama (NAOJ, Subaru) N. Tamura (Durham, UK) K. Aoki (NAOJ,
Evolution of Luminous Galaxy Pairs out to z=1.2 in the HST/ACS COSMOS Field Jeyhan Kartaltepe, IfA, Hawaii Dave Sanders, IfA, Hawaii Nick Scoville, Caltech.

Evolution of Luminous Galaxy Pairs out to z=1.2 in the HST/ACS COSMOS Field Jeyhan Kartaltepe, IfA, Hawaii Dave Sanders, IfA, Hawaii Nick Scoville, Caltech.
Figure 5: Example of stacked images. Figure 6: Number count plot where the diamonds are the simulated data assuming no evolution from z=3-4 to z=5 and.

Figure 5: Example of stacked images. Figure 6: Number count plot where the diamonds are the simulated data assuming no evolution from z=3-4 to z=5 and.
SFR and COSMOS Bahram Mobasher + the COSMOS Team.

SFR and COSMOS Bahram Mobasher + the COSMOS Team.
A Wide Area Survey for High- Redshift Massive BzK Galaxies X.Kong, M.Onodera, C.Ikuta (NAOJ), K.Ohta (Kyoto), N.Tamura (Durham), A.Renzini, E.Daddi, L.

A Wide Area Survey for High- Redshift Massive BzK Galaxies X.Kong, M.Onodera, C.Ikuta (NAOJ), K.Ohta (Kyoto), N.Tamura (Durham), A.Renzini, E.Daddi, L.
Star Formation Rates, Ages and Masses of Massive Galaxies in the FORS Deep and GOODS South fields R. Bender, A. Bauer, N. Drory, G. Feulner, A. Gabasch,

Star Formation Rates, Ages and Masses of Massive Galaxies in the FORS Deep and GOODS South fields R. Bender, A. Bauer, N. Drory, G. Feulner, A. Gabasch,
Measuring the clustering of galaxies in COSMOS Measuring the clustering of galaxies in COSMOS Olivier Le Fèvre, LAM Why ? Why ? How ? correlation function.

Measuring the clustering of galaxies in COSMOS Measuring the clustering of galaxies in COSMOS Olivier Le Fèvre, LAM Why ? Why ? How ? correlation function.
Relating Mass and Light in the COSMOS Field J.E. Taylor, R.J. Massey ( California Institute of Technology), J. Rhodes ( Jet Propulsion Laboratory) & the.

Relating Mass and Light in the COSMOS Field J.E. Taylor, R.J. Massey ( California Institute of Technology), J. Rhodes ( Jet Propulsion Laboratory) & the.
High Redshift Galaxies (Ever Increasing Numbers).

High Redshift Galaxies (Ever Increasing Numbers).
C. Halliday, A. Cimatti, J. Kurk, M. Bolzonella, E. Daddi, M. Mignoli, P. Cassata, M. Dickinson, A. Franceschini, B. Lanzoni, C. Mancini, L. Pozzetti,

C. Halliday, A. Cimatti, J. Kurk, M. Bolzonella, E. Daddi, M. Mignoli, P. Cassata, M. Dickinson, A. Franceschini, B. Lanzoni, C. Mancini, L. Pozzetti,
Venice – March 2006 Discovery of an Extremely Massive and Evolved Galaxy at z ~ 6.5 B. Mobasher (STScI)

Venice – March 2006 Discovery of an Extremely Massive and Evolved Galaxy at z ~ 6.5 B. Mobasher (STScI)
Star Formation Rate and Neutral Gas Content as a Function of Redshift and Environment Collaborators: Mike Pracy, Jayaram Chengalur, Frank Briggs, Matthew.

Star Formation Rate and Neutral Gas Content as a Function of Redshift and Environment Collaborators: Mike Pracy, Jayaram Chengalur, Frank Briggs, Matthew.
The Properties of LBGs at z>5 Matt Lehnert (MPE) Malcolm Bremer (Bristol) Aprajita Verma (MPE) Natascha Förster Schreiber (MPE) and Laura Douglas (Bristol)

The Properties of LBGs at z>5 Matt Lehnert (MPE) Malcolm Bremer (Bristol) Aprajita Verma (MPE) Natascha Förster Schreiber (MPE) and Laura Douglas (Bristol)
Photometric Catalog I-band selected photometric catalog containing ~800,000 galaxies (I (AB) < 26 mag) in 8 bands (UBVgRizK) Star-Galaxy separation using.

Photometric Catalog I-band selected photometric catalog containing ~800,000 galaxies (I (AB) < 26 mag) in 8 bands (UBVgRizK) Star-Galaxy separation using.
Subaru/XMM-Newton Deep Survey Observing galaxy mass assembly at z > 1 in the SXDF FMOS Science Workshop January 13, 2004 Kaz Sekiguchi (Subaru Telescope)

Subaru/XMM-Newton Deep Survey Observing galaxy mass assembly at z > 1 in the SXDF FMOS Science Workshop January 13, 2004 Kaz Sekiguchi (Subaru Telescope)

Similar presentations

Ads by Google