Presentation is loading. Please wait.

Presentation is loading. Please wait.

Early Results from the DEEP2 Redshift Survey Benjamin Weiner (UCO/Lick Observatory) and the DEEP collaboration.

Published byLester Franklin Modified over 8 years ago

Similar presentations

Presentation on theme: "Early Results from the DEEP2 Redshift Survey Benjamin Weiner (UCO/Lick Observatory) and the DEEP collaboration."— Presentation transcript:

1 Early Results from the DEEP2 Redshift Survey Benjamin Weiner (UCO/Lick Observatory) and the DEEP collaboration

2 DEEP 2 Survey Team UC Berkeley: M. Davis, J. Newman, A. Coil, D. Madgwick, M. Cooper, B. Gerke, R. Yan, C. Conroy UC Santa Cruz: S. Faber, D. Koo, P. Guhathakurta, A. Phillips, C. Willmer, R. Schiavon, N. Konidaris Caltech: C. Steidel, R. Ellis, T.Treu, C. Conselice Others: N. Kaiser, G. Wirth, A. Connolly, D. Finkbeiner, G. Luppino, P. Eisenhardt

3 DEEP : two redshift surveys Deep Extragalactic Evolutionary Probe DEEP 1: redshift survey in fields with deep HST WFPC2 imaging Keck/LRIS, 625 galaxy redshifts in Groth Strip DEEP 2: large scale survey targeting galaxy properties and clustering at z ~ 1 Keck/DEIMOS, goal 50,000 galaxy redshifts

4 DEEP 2 : a redshift survey at z ~ 1 1 Hour Survey: 1 hour exposures 4 fields, 3.5 square degrees magnitude limit R(AB) < 24.1 65,000 targets, 50,000 galaxy redshifts most at 0.7<z<1.5 90 Keck nights over 3 years 3 Hour Survey: deeper exposures red (elliptical) galaxies probable z>1.5 galaxies - redshift failures from 1HS

5 Redshift surveys: background Las Campanas Redshift Survey (Shectman et al 1996) Surveys probe distribution of galaxies Also provide samples to study galaxy properties

6 DEEP2 compared to low- z surveys

7 Studying galaxies at z=1 Universe half its current age, Galaxies are younger but still recognizable Spectral features accessible to optical telescopes HST IR/optical imaging corresponds to restframe red/blue from HST WFPC2 Groth Strip

8 DEEP2 target selection Galaxies selected from CFHT 12K imaging, R(AB)<24.1 4 fields, each 0.5 x 2.0 deg (Groth Strip 0.25 x 2.0 deg) Color- cut selection in 3 fields selects z>0.7 galaxies; in Groth Strip we take everything. 2- pass and 4- pass mask coverage 200” x 200” from BRI CFHT images

9 DEEP2 spectroscopy DEIMOS with 1200- line grating. 6500- 9200 A, covers [O II] 3727 doublet at 0.7<z<1.5 Distinctive feature: high resolution 1.0” slit, resolution 1.5 A FWHM, [O II] well resolved 60 km/sec FW at z=1, dispersion  = 25 km/sec Can measure internal kinematics: rotation/dispersion, galaxy masses

10 DEIMOS spectrograph at Keck II Nasmyth focus

11 Inside DEIMOS

12 Spectra from DEIMOS: lots of slits! One-half of one mask. Each has 120- 150 slits, average 5” long

13 Reduced data through pipeline cleaned, combined, sky subtracted Pipeline developed from SDSS code (of Schlegel, Finkbeiner, Burles) by UC Berkeley group galaxy group,  ~ 250 km/sec, at z~1

14 Redshift measurement and verification Find candidate redshifts by automated chi-sq fit to a set of templates Need to be checked by humans: GUI shows 1- D and 2- D data

15 Progress so far Instrument working well, pipeline in operation Both in use by other Keck users 190/480 masks observed, 40% complete 8,200 galaxy redshifts checked and in catalog

16 Redshift, color and magnitude 2700 galaxies in Groth Strip Large scale structure walls Color bimodality - red/blue

17 Photo- z color cut Redshifts from Groth Strip verify color cut works cleanly

18 Redshift success and failure Most of failures are faint blue galaxies Most of these are presumably high z, z > 1.5

19 Space distribution z=0.4 z=1.3

20 Galaxy restframe color and luminosity Blue/red separation No faint red Brighter blue galaxies at high z Lose red galaxies to mag cutoff Extended Groth Strip

21 Galaxy restframe color and luminosity All fields: lots more galaxies at z>0.7 All fields (8000 galaxies)

22 Blue luminosity function Simplistic 1/Vmax on EGS data Evolution in blue galaxies at bright end? Real calculations forthcoming (Christopher Willmer et al)

23 Red galaxies are the ones with bulges DEEP 1 galaxies with HST imaging (fits by L. Simard) Blue galaxies: mostly exponential Red galaxies: more concentrated

24 Red bulges are bright at z < 1 DEEP 1 galaxies with HST imaging (fits by L. Simard) Blue galaxies: starforming, disky Red galaxies: brighter bulges

25 COMBO- 17 photometric survey Large area, 17 filters, photo- z Color evolution in red sequence Mass buildup in red galaxies? Bell et al. 2003

26 Color bimodality and evolution? L model Z model Which is consistent with color and luminosity evolution?

27 Galaxy correlation functions Alison Coil et al. 2003 submitted Clustering measure quantified Red galaxies more clustered Starforming galaxies less clustered

28 Rotation curves Michael Cooper (UC Berkeley)

29 Integrated emission linewidths Fit lines to 1- D extracted spectrum Kinematic measurement even when spatially unresolved

30 Linewidth- magnitude relation 3200 galaxies, z > 0.65 0.65<z<0.8: slope same as low- z, ZP offset Higher redshifts: zeropoint offset increases slope flattens Bright galaxies with low dispersions

31 Color- magnitude relation At high z, bright galaxies had low dispersions relative to low z TF rel Yet bright galaxies are still redder - not pure starbursts Note selection limit in high z bin

32 Color- linewidth residual Pretty flat but for highest z bin Redder objects are brighter, and/or have lower dispersion than predicted from TF

33 [O II] line strength relations Equivalent width Absolute strength Both increase with redshift

34 [O II] luminosity function Simple 1/Vmax weighting Signature of evolution at bright end

35 Velocity function (baby steps) Like a luminosity function but counts number of objects of given dispersion Simple 1/Vmax weighting Suggestion of evolution at high mass end - fewer high dispersion galaxies at high redshift?

36 Where we're going Catching up to current data, and more data coming including Palomar K-band photometry More studies of galaxy properties and environment Galaxy groups Cosmological models and tests - counting halos, groups Confronting galaxy evolution models Extended Groth Strip - SIRTF, Galex, X- ray and radio data

37

Download ppt "Early Results from the DEEP2 Redshift Survey Benjamin Weiner (UCO/Lick Observatory) and the DEEP collaboration."

Similar presentations

The W i d e s p r e a d Influence of Supermassive Black Holes Christopher Onken Herzberg Institute of Astrophysics Christopher Onken Herzberg Institute.

The W i d e s p r e a d Influence of Supermassive Black Holes Christopher Onken Herzberg Institute of Astrophysics Christopher Onken Herzberg Institute.
Kevin Bundy, Caltech The Mass Assembly History of Field Galaxies: Detection of an Evolving Mass Limit for Star-Forming Galaxies Kevin Bundy R. S. Ellis,

Kevin Bundy, Caltech The Mass Assembly History of Field Galaxies: Detection of an Evolving Mass Limit for Star-Forming Galaxies Kevin Bundy R. S. Ellis,
Hierarchical Clustering Leopoldo Infante Pontificia Universidad Católica de Chile Reunión Latinoamericana de Astronomía Córdoba, septiembre 2001.

Hierarchical Clustering Leopoldo Infante Pontificia Universidad Católica de Chile Reunión Latinoamericana de Astronomía Córdoba, septiembre 2001.
Extragalactic AO Science James Larkin AOWG Strategic Planning Meeting September 19, 2004.

Extragalactic AO Science James Larkin AOWG Strategic Planning Meeting September 19, 2004.
Collaborators: E. Egami, X. Fan, S. Cohen, R. Dave, K. Finlator, N. Kashikawa, M. Mechtley, K. Shimasaku, and R. Windhorst.

Collaborators: E. Egami, X. Fan, S. Cohen, R. Dave, K. Finlator, N. Kashikawa, M. Mechtley, K. Shimasaku, and R. Windhorst.
The Prevalence and Properties of Outflowing Galactic Winds at z = 1 Katherine A. Kornei (UCLA) Alice E. Shapley (UCLA) Crystal L. Martin (UCSB) Alison.

The Prevalence and Properties of Outflowing Galactic Winds at z = 1 Katherine A. Kornei (UCLA) Alice E. Shapley (UCLA) Crystal L. Martin (UCSB) Alison.
The Prevalence and Properties of Outflowing Galactic Winds at z = 1 Katherine A. Kornei (UCLA) Alice E. Shapley (UCLA) Crystal L. Martin (UCSB) Alison.

The Prevalence and Properties of Outflowing Galactic Winds at z = 1 Katherine A. Kornei (UCLA) Alice E. Shapley (UCLA) Crystal L. Martin (UCSB) Alison.
July 7, 2008SLAC Annual Program ReviewPage 1 Weak Lensing of The Faint Source Correlation Function Eric Morganson KIPAC.

July 7, 2008SLAC Annual Program ReviewPage 1 Weak Lensing of The Faint Source Correlation Function Eric Morganson KIPAC.
Primeval Starbursting Galaxies: Presentation of “Lyman-Break Galaxies” by Mauro Giavalisco Jean P. Walker Rutgers University.

Primeval Starbursting Galaxies: Presentation of “Lyman-Break Galaxies” by Mauro Giavalisco Jean P. Walker Rutgers University.
AGN and Quasar Clustering at z=0.2-1.5: Results from the DEEP2 + AEGIS Surveys Alison Coil Hubble Fellow University of Arizona Chandra Science Workshop.

AGN and Quasar Clustering at z= : Results from the DEEP2 + AEGIS Surveys Alison Coil Hubble Fellow University of Arizona Chandra Science Workshop.
Calibration of the SDSS Spectroscopic Line Width Scaling Relations Calibration of the SDSS Spectroscopic Line Width Scaling Relations Barbara Catinella.

Calibration of the SDSS Spectroscopic Line Width Scaling Relations Calibration of the SDSS Spectroscopic Line Width Scaling Relations Barbara Catinella.
Exploring the Stellar Populations of Early-Type Galaxies in the 6dF Galaxy Survey Philip Lah Honours Student h Supervisors: Matthew Colless Heath Jones.

Exploring the Stellar Populations of Early-Type Galaxies in the 6dF Galaxy Survey Philip Lah Honours Student h Supervisors: Matthew Colless Heath Jones.
Bell, E. F et al. 2004 “Nearly 5000 distant Early-type galaxies in COMBO-17: A Red Sequence and its evolution since z~1” Presented by: Robert Lindner (Bob)‏

Bell, E. F et al “Nearly 5000 distant Early-type galaxies in COMBO-17: A Red Sequence and its evolution since z~1” Presented by: Robert Lindner (Bob)‏
Discovery of Galaxy Clusters Around Redshift 1 Deborah Haarsma, Calvin GLCW, June 1, 2007.

Discovery of Galaxy Clusters Around Redshift 1 Deborah Haarsma, Calvin GLCW, June 1, 2007.
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,
Texas A&M, May 2007 The Growth of LSS in a Dark Energy Dominated Universe Marc Davis UC Berkeley.

Texas A&M, May 2007 The Growth of LSS in a Dark Energy Dominated Universe Marc Davis UC Berkeley.
Clustering of QSOs and X-ray AGN at z=1 Alison Coil Hubble Fellow University of Arizona October 2007 Collaborators: Jeff Newman, Joe Hennawi, Marc Davis,

Clustering of QSOs and X-ray AGN at z=1 Alison Coil Hubble Fellow University of Arizona October 2007 Collaborators: Jeff Newman, Joe Hennawi, Marc Davis,
Large-Scale Structure at z=1: Results from the DEEP2 Survey Alison Coil Steward Observatory University of Arizona March 2006.

Large-Scale Structure at z=1: Results from the DEEP2 Survey Alison Coil Steward Observatory University of Arizona March 2006.
UCSC - August, 2004 Large-Scale Structure in the DEEP2 Galaxy Redshift Survey Jeffrey Newman Lawrence Berkeley National Laboratory And The DEEP2 Team.

UCSC - August, 2004 Large-Scale Structure in the DEEP2 Galaxy Redshift Survey Jeffrey Newman Lawrence Berkeley National Laboratory And The DEEP2 Team.
Establishing the Connection Between Quenching and AGN MGCT II November, 2006 Kevin Bundy (U. of Toronto) Caltech/Palomar: R. Ellis, C. Conselice Chandra:

Establishing the Connection Between Quenching and AGN MGCT II November, 2006 Kevin Bundy (U. of Toronto) Caltech/Palomar: R. Ellis, C. Conselice Chandra:

Similar presentations

Ads by Google