1. Venice, August 2007 The Growth of LSS in a Dark Energy Dominated Universe A Century of Cosmology Marc Davis UC Berkeley

2. The DEEP2 Collaboration U.C. Berkeley M. Davis (PI) D. Croton M. Cooper B. Gerke R. Yan U.C. Santa Cruz S. Faber (Co-PI) D. Koo P. Guhathakurta U.C. Santa Cruz D. Phillips S. Kassin K. Noeske A. Metevier L. Lin N. Konidaris G. Graves J. Harker Other Institutions J. Newman (LBNL) A. Coil (Arizona) C. Willmer (Arizona) B. Weiner (Arizona) R. Schiavon (UVA) C. Conroy (Princeton) N. Kaiser (Hawaii ) D. Finkbeiner (Harvard) A. Connolly (Pitt.) The DEEP2 Galaxy Redshift Survey used the DEIMOS spectrograph at the Keck II telescope to study both galaxy properties and large-scale structure at z~1.

3. Venice, August 2007 DEEP2 has been made possible by DEIMOS, a new instrument on Keck II DEIMOS: PI: Faber wide-field multiplexing (up to 160 slitlets over a 16’x4’ field) high resolution (R~5000) spectral range (~2600 Å at highest resolution) CCD array of 8k x 8k

4. Venice, August 2007 DEEP2 pre-selects high-z galaxies using observed colors

5. DEEP2 mask selection Targeted galaxies are enclosed with white curves Solid slits are objects selected on a given mask. dotted and dashed lines are galaxies from neighboring masks.

6. Venice, August 2007 DEEP2 slitmask spectroscopy Using custom-milled slitmasks with DEIMOS we obtained spectra of ~150 targets at a time. A total of 400 slitmasks was required for the survey; we tilted slits up to 30 degrees to obtain rotation curves. position

7. Venice, August 2007 AEGIS: the All-wavelength Extended Groth Strip International Survey Spitzer MIPS, IRAC DEEP2 spectra and Caltech/JPL K s imaging HST/ACS V,I (Cycle 13) DEEP2/CFHT B,R,I GALEX NUV+FUV Chandra & XMM: XMM Chandra (1.6Ms) Plus VLA (6 & 21 cm), SCUBA, etc….

8. Venice, August 2007 X-ray analysis - detection and photometry P.Nandra et al. Each square has integration time of 200 ksec Source selection and photometry by own method –Elliptical shaped PSFs All data will be released in August, 2007 1.6 Ms

9. Venice, August 2007 Comparison with Other Surveys z~0 z~1 DEEP2 SDSS 2dF CFA+ SSRS LCRS PSCZ DEEP2 -- comparable in size and density to previous generation local redshift surveys >50 times larger than previous surveys at z~0.3-1. DEEP2 is similar to LCRS in sample size but at z=1 - with a very different geometry: ~20  80  1000 h -3 Mpc 3 per field (LCDM)

10. Venice, August 2007 A Redshift Survey at z=1: 3 sq. degrees 4 fields (0.5 o x <2 o ) 80 Keck nights, one-hour exposures to R AB =24.1 primarily z~0.75-1.4 ( pre-selected using BRI photometry ) 46,585 unique redshifts, error ~30 km/s ~5·10 6 h -3 Mpc 3 1200 l/mm: ~6500-9200 Å 1.0” slit: FWHM  68 km/s z=0.7-1.4 spans lookback time ~6.0 - 8.0 Gyr ago Within DEEP2 we are surveying 2.5 Gyr or ~20% of the history of the Universe, and SDSS/2dF comparisons give ~3x this baseline

11. Venice, August 2007 Redshift Distribution of DEEP2 Survey

12. Venice, August 2007 DEEP2 Status Update DEEP2 began observations in July 2002. Observations are now >95% finished, with >49k spectra in hand and 3 of 4 fields completed. Follow-up observations have begun. ALL the data is already public: http://deep.berkeley.edu/DR3 The catalog and 2d spectra is all available, and others are releasing Chandra, Spitzer, HST, ….

13. 13 Brian F. Gerke Evrard et al. 02 Hubble volume simulations ΛCDM  CDM o 10 15 M o * 10 14.5-15 M o. 10 14-14.5 M o =1 =0.3,  Λ  =0.7 Cluster abundance depends on cosmology

14. 2PIGG:Ek e et al 2004 DEEP2: Gerke et al 2005 z=0.75 z=1.0

15. Venice, August 2007 Redshift Maps in 4 Fields: z=0.7-1.3 Cone diagram of 1/12 of the full DEEP2 sample

16. Venice, August 2007 Galaxy groups in DEEP2, z position Overdensities identified in redshift space. Use the VDM algorithm of Marinoni et al. (2002). Group in early DEEP2 data s~250 km/sec

17. Venice, August 2007 DEEP2 Group Catalog Gerke et al. 2005, astro-ph/0410721 Shown are groups for 3 fields --length of ellipse proportional to velocity dispersion Groups with  >350 km/s

18. Looking for DEEP2 groups in the X-ray 200 ks Chandra observation in the Extended Groth Strip (1/8 of total coverage), with positions of 7 DEEP2 groups superimposed (2 300 km/s) T. Fang et al, 2006, in press

19. Venice, August 2007 Real Groups/Mock Groups x-r redshift plot y-r redshift plot X-y projected on sky galaxies shown in 3 projections Real or Mock???

20. Why search for groups in DEEP2? Apparent abundance of groups: dN( ,z)/dzd  Provides a useful test of dark energy eq. of state (Newman et al, 2002) differences in the volume element varies by 3x between w=0 and w=-1 For groups of modest-mass, the evolution of dispersion is 2nd order Heavy black curve is  T =.3 DEIMOS took ~7 years to build; at time of designing science expt.  T was still undetermined, and DE was not discussed.

21. Size of the Universe versus w

22. Abundance versus Redshift Simulated Data!! Gerke etal 2008

23. Measured dispersion with galaxies compared to reality -- tremendous scatter!

24. Venice, August 2007 Dispersion with galaxies

25. Venice, August 2007 Brian F. Gerke We can reconstruct the quantity we need with the VDM Successful above ~350 km/s We want to measure N(σ, z) to constrain cosmology. Tests on the mock catalogs indicate that we can measure N(σ,z) in DEEP2 accurately for σ>350 km/s.

26. Venice, August 2007 Brian F. Gerke Projected constraints Computed with DM halos in simulated DEEP2 and 2dF light cones, constructed from the Millennium Run. In each panel, the suppressed parameter is held fixed. input cosmology

27. DEEP2 Cluster Counts DEEP2 survey counted ~300 groups Velocity dispersion measured in each case Counts of N( , z) is a strong test of w Have not got mock catalogs with the evolving color selection, making it difficult to proceed B. Gerke will have results out “soon”

28. Measuring Kaiser infall in  (r p,  ) The blue galaxies show fully developed coherent infall pattern on scales >5 Mpc, as expected. The red galaxies have very extended fingers of god, as expected. Coil et al, 2008

29. Kaiser infall, MOCKS Millenium mocks, not a bad approximation Coil et al, 2008

30. Venice, August 2007 DEEP2 observations are >99% done Work not yet published is study of galaxy clustering DR3 has occurred this August: http://deep.berkeley.edu/DR3 AEGIS ApJL special issue Way too many new results to cover in one talk! Conclusions on DEEP2

31. Venice, August 2007 We are beginning to measure w… Gerke et al. 2005 Constraints of 314 groups Plot does not use redshift information Furthermore, we are still checking systematics!!

32. Venice, August 2007 Velocity bias and N(  ) A degenerate parameter is the “velocity bias”, b v. (factor by which the velocity dispersion of galaxies in a cluster differs from the dark matter dispersion. Some simulations currently favor b v =1.1, others 0.9.) Degeneracy between: b v ~1.1  M ~0.4  8 ~1 w ~-1.25.

33. Dependence on systematics Systematic errors predominantly affect the constraints in the w direction, which is primarily driven by DEEP2 group abundances. SDSS groups can still provide strong constraints in the  m direction (assuming  8 is known), as there errors are small enough that the shape of the velocity function is providing significant constraints.

34. What if we had 20x as much area? Future baryonic- oscillation surveys could be used to make this same measurement if they are densely sampled. A 60 square degree survey could yield tight constraints on w - IF systematics are well- constrained.

35. Venice, August 2007 By combining area with depth, AEGIS allows us to study rare objects in detail… B. Gerke, JN et al. 2006, AEGIS ApJL, Accepted

36. Venice, August 2007 Like a spectroscopically identified, dual AGN at z=0.7 HH [OIII] 4959 [OIII] 5007 / z position

37. Venice, August 2007 HST reveals a fairly-normal early-type host

38. Venice, August 2007 AEGIS gives its SED over 9 decades in