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A Search for Bright, Strongly-Lensed, High-z Galaxies in the SDSS

A Search for Bright, Strongly-Lensed, High-z Galaxies in the SDSS. Huan Lin Experimental Astrophysics Group Fermilab Center for Particle Astrophysics. Collaborators.

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A Search for Bright, Strongly-Lensed, High-z Galaxies in the SDSS

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  1. A Search for Bright, Strongly-Lensed, High-z Galaxies in the SDSS Huan Lin Experimental Astrophysics Group Fermilab Center for Particle Astrophysics

  2. Collaborators • Fermilab: H. Lin, D. Kubik, H.T. Diehl, S. Allam, D. Tucker, E. Buckley-Geer, J. Kubo, J. Annis, J. Frieman, D. Finley, J. Estrada, D. McGinnis, V. Scarpine, … Fermilab Cosmology Analysis Group • D. Schneider, M. Oguri, A. Shapley, A. Baker, D. Lutz, J.A. Smith, J. Brinchmann, M. Strauss, M.-S. Shin, C. Kochanek, C. Tremonti, …

  3. Motivation • cB58 (Yee et al. 1996) • Discovered serendipitously in CNOC1 cluster redshift survey • z = 2.72 Lyman break galaxy (LBG) lensed by z = 0.37 brightest cluster galaxy (BCG) • Bright, blue object (r = 20.4), 6” away from BCG • Bright enough to be easily seen in SDSS and to have an SDSS spectroscopic redshift! • 8 o’clock arc (Allam et al. 2007; see plenary talk by Sahar Allam) • Discovered serendipitously in inspection of SDSS DR4 interacting galaxy pairs sample • z = 2.73 LBG lensed by z = 0.38 SDSS luminous red galaxy (LRG) • Bright, blue arc (total r = 19), ~4” away from LRG • Easy absorption line redshift in 20 min DIS spectrum on APO 3.5m • Start systematic search for more systems like cB58 and the 8 o’clock arc in the SDSS

  4. 8 o’clock arc APO 3.5m g-band image and Keck LRIS spectrum

  5. SDSS Arc Search • Potential red galaxy lenses from SDSS DR5 (8000 deg2) • 221,000 luminous red galaxies (LRGs) • 29,000 brightest cluster galaxies (BCGs) from maxBCG cluster sample (J. Annis) • SDSS DR5 CAS database query (D. Kubik) • Blue galaxies (g-r and r-i color cuts) • < 10” from LRG or BCG • 57,000 systems returned with n=1 or more blue objects • Rank systems by number of blue objects n • Visual inspections • Inspect all systems (1081) with n >= 3 blue objects • 4 separate inspectors looked at SDSS CAS gri color jpeg images • Look for arc-like morphology • Reject HII regions, spiral arms, merging galaxies, etc. • Follow up 14 candidate systems flagged by 2 or more inspectors • Plus 1 more (“clone”) from single-inspector eye scan of n=2 LRG list

  6. Follow-Up Observations • Follow-up observing program (Fermilab group) on Apache Point Observatory (APO) 3.5m telescope • Arcs are bright (r ~ 20-22) and high SB (r ~ 23-24 mag/arcsec2) • SPIcam gri imaging (15 min exposures per filter) for deeper images (SDSS discovery images are only 54 seconds on a 2.5m telescope) • DIS spectroscopy (45 min exposures) of brighter targets for source and lens redshifts • Additional Hobby-Eberly Telescope (HET) spectroscopic follow-up program (PI D. Schneider) of fainter targets • Subaru FOCAS imaging and spectroscopy (M. Oguri) of “clone” system • APO and HET programs are ongoing

  7. 15 Candidate Systems

  8. 2 Systems Rejected by Follow-Up

  9. 6 Spectroscopically Confirmed Lensing Systems

  10. 7 Remaining Systems Still Need Follow-Up Confirmation

  11. Comparison of SDSS Discovery and APO 3.5m Follow-Up Images

  12. lrg_2_2811 (“clone”) Subaru FOCAS V-band image and spectrum (M. Oguri) See posters by Liz Buckley-Geer & Allyn Smith

  13. lrg_4_606 APO 3.5m SPIcam gri image and DIS spectrum (unfluxed)

  14. lrg_3_757 SDSS 2.5m gri image and APO 3.5m DIS spectrum (unfluxed)

  15. Sample Properties • Current follow-up results for 15 candidate systems • 6 spectroscopically confirmed • 4 with z = 2.0-2.4: “BX” galaxies (z~2 Lyman break galaxies) • 2 have z = 1.0 and z = 0.4 • 2 rejected, remaining 7 still need follow-up confirmation • Lensed images are bright (r ~ 20-22) and high SB (r ~ 23-24 mag/arcsec2) • Lens galaxies in z ~ 0.2-0.5 range, but most have z ~ 0.4 • Einstein radius, mass, and M/L analysis (D. Kubik master’s thesis) • Estimate Einstein radius by circle fit to lensed images • Einstein radii 3-10”, or 10-40 kpc/h • Masses w/i Einstein radii of 1012 - 1013 Msun/h • “Intermediate” regime: lensing by groups and centers of clusters • M/L (g-band) of 10-140 h(M/L)Sun on scales of 10-40 kpc/h • Consistent with trends from dynamical and X-ray M/L measurements for ellipticals on similar scales • Complementary to other strong lensing results on smaller scales, and weak lensing results on larger scales

  16. Masses and Einstein Radii D. Kubik (2007)

  17. M/L vs. Mass D. Kubik (2007)

  18. M/L vs. Radius D. Kubik (2007)

  19. M/L vs. Radius Comparison Weak lensing by CNOC2 groups (Parker et al. 2005) Elliptical galaxies: dynamics and X-rays (Bahcall et al. 1995) SDSS Arc Search Sample Keeton et al. (1998) lenses SLACS lenses (Treu et al. 2006, Koopmans et al. 2006) See poster by Donna Kubik

  20. Plans • Observations • Complete follow-up confirmation programs at APO and HET • HST Cycle 16 and Spitzer Cycle 4: 8 o’clock arc and clone • Gemini NIRI spectroscopy of 3 confirmed z > 2 systems (2007B) • Proposed IRAM mm CO and continuum observations of z > 2 systems • Will propose for IRTF near-IR imaging follow-up • Analyses • More detailed lens models • Constrain lens mass profiles in group/cluster core environments • Simulations to determine selection effects • Understand source and lens redshift distributions • More SDSS arc searches • Inspect existing n <= 2 query search systems • Search around fainter, higher-z red galaxies, including Stripe 82 coadds • Increase search radius to get cluster-scale lensing systems • Implement automated search methods

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