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1 Galaxies at Cosmic Dawn Revealed in the First Year of the Hubble Frontier Fields Initiative Dr. Gabriel Brammer (ESA/AURA, STScI) Hubble Science Briefing / November 6, 2014 Dr. Gabriel Brammer (ESA/AURA, STScI) Hubble Science Briefing / November 6, 2014 A Look Back: 1

2 The Early Universe As observed in the Cosmic Microwave Background Radiation (CMBR), structure in the universe 300,000 years after the Big Bang consisted of tiny density fluctuations (1 in 100,000) Graphic credit: Le Figaro

3 A universe in a box Start with the initial conditions determined from the cosmic microwave background and let gravity do its thing…. z=4 z=2z=1 z=0 (today) time ⇒ Dark Matter Gas

4 z=4z=2z=1 z=0 (today) time ⇒ Galaxies today Dark Matter Gas

5 z=4z=2z=1 z=0 (today) time ⇒ Galaxies today The local galaxy population: Sloan Digital Sky Survey (SDSS) ESA PR Dark Matter Gas

6 Cosmology and galaxy evolution Galaxies in the expanding universe flying apart (E. Hubble) causing the wavelengths of light from distant galaxies to be shifted redward ⇒ “ redshift ”, or “ z ” Given the cosmological model supported by the CMBR and many other observations (e.g., supernovae), the measurement of a galaxy ’ s redshift is both a ruler (how far is it from us?) and a clock (what was the age of the universe when the light we observe was emitted?) To build up an understanding of how galaxies form and evolve, we observe and characterize the galaxy population at different redshifts, which correspond to different epochs in the history of the universe

7 Galaxy evolution A problem: distant galaxies are faint and small! Relative surface brightness z=0.1 ≡ 1) Redshift, z Angular size of the Sun’s orbit in the Milky Way (8 kpc, in arcseconds) Redshift, z z = 0, today 13.7 Gyr after Big Bang 900 Myr after Big Bang (Gyr: giga/billions, Myr: mega/millions of years)

8 Galaxy evolution The Hubble Space Telescope provides the needed sensitivity and image quality to detect distant galaxies 1995

9 We can measure the total star formation history of the universe in deep Hubble observations! P. Madau et al. (1996) Redshift, z Stars formed per year, per unit volume

10 Servicing HST: pushing ever further from “ cosmic high noon ” to “ cosmic dawn ” Installing Wide-Field Camera 3, 2009 (NASA) 10

Redshift, z Stars formed per year, per unit volume

Redshift, z P. Oesch et al. (2014) Stars formed per year, per unit volume

Redshift, z P. Oesch et al. (2014) Stars formed per year, per unit volume “ High noon ” “ Dawn ”

14 ⇐ time 14

15 The next step? ⇐ time How can we use Hubble to efficiently and significantly go beyond the large investments of the existing deep fields today, before the launch of the James Webb Space Telescope in 2018? 15

16 Natural telescopes: gravitational lenses Illustration by D. Coe, Z. Levay The Hubble Ultra Deep Field Massive galaxy cluster (A million-billion times the mass of the sun in stars+gas+dark matter) +

17 Natural telescopes: gravitational lenses Illustration by D. Coe, Z. Levay Distortion and magnification of the distant galaxies behind the cluster =

18 The HST Frontier Fields, year 1 18

19

20 Abell 2744 Cluster

21 Abell 2744 Cluster “ Parallel ”

22 Scientific collaboration The first year of Frontier Fields observations has formed the basis of more than 30 publications with coauthors from 18 countries 22

23 Science highlights 1. Improved determination of the dark matter distribution and total mass of the clusters themselves 2. “ Ghost light ” from galaxies torn apart in the Abell 2744 cluster 3. Numerous galaxy candidates at z > 7 4. A robust, multiply-imaged galaxy candidate at z ~ 10

24 1. Cluster mass models A reminder: only about 5% of the “stuff” in the universe (energy density) is composed of matter we know and understand, like stars, gas, and neutrinos. Galaxy clusters are extremely massive (10 14 M ⊙ in stars, or, > 10 the GDP of the USA, in $) and dominated by dark matter.

25 1. Cluster mass models Many multiply imaged lens arcs identified in the deep Frontier Fields imaging of the Abell 2744 and MACS 0416 clusters The arcs put strong constraints on the mass distribution in the clusters (e.g., stars plus dark matter) The total mass of the cluster constrained with a precision of only a few percent! The improved mass model also yields more reliable determination of the magnification map, which is necessary for interpreting the distant background galaxies

26 1. Cluster mass models Dozens of multiple image pairs Jauzac et al. (2014)

27 1. Cluster mass models 27 Dozens of multiple image pairs Jauzac et al. (2014) Magnification map

28 2. “ Ghost light ” of shredded cluster galaxies Trujillo et al. (2014) Galaxy clusters are a violent environment, with galaxies rushing around at thousands of kilometers per second. Cluster galaxies can get shredded in the process, with the stellar remains strewn about the cluster

29 3. Dozens of galaxies at z > 7 Ishikagi et al. (2014) Atek et al. (2014), Zheng et al. (2014)

30 3. Dozens of galaxies at z > 7 Ishikagi et al. (2014) Atek et al. (2014), Zheng et al. (2014)

31 4. A multiply-imaged galaxy at z~ 10 Detections only in the reddest HST infrared filters suggest a redshift of z~ 10. Detecting multiple lensed images greatly increases the likelihood that the object is truly at high redshift and not rather a nearby interloper. bc a a b c Zitrin et al. (2010)

32 Such faint objects can only be detected in the very long full Frontier Fields exposures! 4. A multiply-imaged galaxy at z~ 10 An HST orbit

33 Such faint objects can only be detected in the very long full Frontier Fields exposures! 4. A multiply-imaged galaxy at z~ 10 1 orbit2 orbits 8 orbits24 orbits ab

34 Working as a team Hubble Space Telescope Spitzer Space TelescopeChandra X-ray Observatory W.M Keck Observatory (Mauna Kea, HI) European Southern Observatory, Very Large Telescope (Cerro Paranal, Chile) Gemini Observatory (Mauna Kea, HI, and Cerro Pachón, Chile) NASA ’ s Great Observatories

35 Many more exciting results to come! 35