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The First Billion Years of History - seeing Galaxies Close to the Dawn of Time Andrew Bunker, Andrew Bunker, Anglo-Australian Observatory & University.

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Presentation on theme: "The First Billion Years of History - seeing Galaxies Close to the Dawn of Time Andrew Bunker, Andrew Bunker, Anglo-Australian Observatory & University."— Presentation transcript:

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2 The First Billion Years of History - seeing Galaxies Close to the Dawn of Time Andrew Bunker, Andrew Bunker, Anglo-Australian Observatory & University of Oxford KIAA/PKU Workshop

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4 "Lyman break technique" - sharp drop in flux at  below Ly- . Steidel et al. have >1000 z~3 objects, "drop" in U-band.

5 HUBBLE SPACE TELESCOPE

6 "Lyman break technique" - sharp drop in flux at  below Ly- . Steidel et al. have >1000 z~3 objects, "drop" in U-band. Pushing to higher redshift- Finding Lyman break galaxies at z~6 : using i-drops.

7 Using HST/ACS GOODS data - CDFS & HDFN, 5 epochs B,v,i',z'

8 By selecting on rest- frame UV, get inventory of ionizing photons from star formation. Stanway, Bunker & McMahon (2003 MNRAS) selected z-drops 5.6<z<7 - but large luminosity bias to lower z. Contamination by stars and low-z ellipticals.

9 10-m Kecks 8-m Gemini ESO VLTs

10 The Star Formation History of the Univese Bunker, Stanway, z=5.8 Ellis, McMahon & McCarthy (2003) Keck/DEIMOS spectral follow-up & confirmation I-drops in the Chandra Deep Field South with HST/ACS Elizabeth Stanway, Andrew Bunker, Richard McMahon 2003 (MNRAS)

11 GLARE I: Stanway, Glazebrook, Bunker et al. 2004 ApJ 604, L13

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13 GLARE II: Stanway, Bunker, Glazebrook et al. 2007 MNRAS 376, 272

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18 For I-drops (z~6) would only get ~1 per NIRSpec field bright enough for S/N~3-10 in continuum in 1000sec for abs line studies

19 Looking at the UDF (going 10x deeper, z'=26  28.5 mag) Bunker, Stanway, Ellis &McMahon 2004

20 After era probed by CMBR the Universe enters the so-called “dark ages” prior to formation of first stars Hydrogen is then re-ionized by the newly-formed stars When did this happen? What did it? DARK AGES Redshift z 5 10 1100 2 0

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22 Implications for Reionization From Madau, Haardt & Rees (1999) -amount of star formation required to ionize Universe (C 30 is a clumping factor). This assumes escape fraction=1 (i.e. all ionzing photons make it out of the galaxies) Our UDF data has star formation at z=6 which is 3x less than that required! AGN cannot do the job. We go down to 1M_sun/yr - but might be steep  (lots of low luminosity sources - forming globulars?)

23 Ways out of the Puzzle - Cosmic variance - Star formation at even earlier epochs to reionize Universe (z>>6)? - Change the physics: different recipe for star formation (Initial mass function)? - Even fainter galaxies than we can reach with the UDF?

24 Spitzer – IRAC (3.6-8.0 microns)

25 - z=5.83 galaxy #1 from Stanway, Bunker & McMahon 2003 (spec conf from Stanway et al. 2004, Dickinson et al. 2004). Detected in GOODS IRAC 3-4  m: Eyles, Bunker, Stanway et al.

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27 Other Population Synthesis Models Maraston vs. Bruzual & Charlot B&C  =500Myr, 0.7Gyr, 2.4x10 10 Msun Maraston  =500Myr, 0.6Gyr, 1.9x10 10 Msun

28 ● 30Myr const SFR with E(B-V)=0.1 ● No reddening ● 0.2solar metallicity

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30 -Have shown that some z=6 I-drops have old stars and large masses (subsequently confirmed by H. Yan et al) -Hints that there may be z>6 galaxies similar (Egami lens). Mobasher source - z=6.5??? (probably lower-z) - Turn now to larger samples, to provide stellar mass density in first Gyr with Spitzer - - In Stark, Bunker, Ellis et al. (2006) we look at v- drops (z~5) in the GOODS-South - 21 have spectroscopic redshifts, 2/3rds unconfused at Spitzer resolution - - Also use 200 photometric redshifts (going fainter), >50 unconfused

31 Eyles, Bunker, Ellis et al. astro-ph/0607306

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36 DAZLE - Dark Ages 'z' Lyman-alpha Explorer IoA - Richard McMahon, Ian Parry; AAO - Joss Bland-Hawthorne

37 JAMES WEBB SPACE TELESCOPE – successor to Hubble (2013+)

38 What is JWST? ● 6.55 m deployable primary ● Diffraction-limited at 2 µm ● Wavelength range 0.6-28 µm ● Passively cooled to <50 K ● Zodiacal-limited below 10 µm ● Sun-Earth L2 orbit ● 4 instruments – 0.6-5 µm wide field camera (NIRCam) – 1-5 µm multiobject spectrometer (NIRSpec) – 5-28 µm camera/spectrometer (MIRI) – 0.8-5 µm guider camera (FGS/TF) ● 5 year lifetime, 10 year goal ● 2014 launch

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40 ESA Contributions to JWST ● NIRSpec – ESA Provided – Detector & MEMS Arrays from NASA ● MIRI Optics Module – ESA Member State Consortium – Detector & Cooler/Cryostat from NASA ● Ariane V Launcher (ECA) (closely similar to HST model…)

41 NIRSpec IST

42 Absorption lines at z>5 - a single v. bright Lyman break z=5.5 galaxy, Dow- Hygelund et al (2005), AB=23-24, VLT spectrum (22 hours), R~3000; S/N=3-10 at R=1000,2700 in 1000sec NIRSpec

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