evidence for a population of massive evolved galaxies at z > 6.5
DESCRIPTION
Evidence for a Population of Massive Evolved Galaxies at z > 6.5. Bahram Mobasher. M.Dickinson NOAO H . Ferguson STScI M. Giavalisco , M. Stiavelli STScI Alvio Renzini, Piero Rosati (ESO). T. Wiklind ESA/STScI R. S. Ellis (Caltech) D. Stark (Caltech), Nino Panagia - PowerPoint PPT PresentationTRANSCRIPT
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Evidence for a Population of MassiveEvolved Galaxies at z > 6.5
Bahram Mobasher
M.Dickinson NOAOH . Ferguson STScIM. Giavalisco , M. Stiavelli STScIAlvio Renzini, Piero Rosati (ESO)
T. Wiklind ESA/STScIR. S. Ellis (Caltech)D. Stark (Caltech), Nino PanagiaM. Fall, A. Koekemoer (STScI)
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It is generally accepted that galaxies we see today, form by mergers of smaller sub-units
throughout the age of the UniverseGalaxies are younger and less massive at
higher redshifts
Is there NO massive and evolved system at high redshifts, when the Universe was < 1 Gyrs old ?
Only recently, with combined optical, near-Infrared and mid-Infrared observations one could
explore this.
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Balmer Break Technique forSelecting Massive and Old Galaxies
at High redshifts
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z = 7
no extinction
t = 50 Myrt = 100 Myrt = 300 Myrt = 500 Myrt = 600 Myrt = 800 Myr
The Balmer break is a prominent feature for stellar populations age t > 100 Myrs
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H
K3.6m
JH K
3.6m
J
dust-free post-starburst z ~ 7 dusty starburst z ~ 2.5
Dusty starburst at z ~ 2.5
Post starburst at z ~ 7
old Elliptical at z ~ 2.5
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H
K3.6m
JH K
3.6m
J
dust-free post-starburst z ~ 7 dusty starburst z ~ 2.5
Dusty starburst at z ~ 2.5
Post starburst at z ~ 7
old Elliptical at z ~ 2.5
Alternate way of selecting very high redshift candidates:
Color-color selection: H - 3.6m vs K - 3.6m
The slope of the short- side of the Balmer break is differentfor dusty starburst and dust-free post-starburst galaxies
Avoids using J-band - often faint
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Selecting Massive Evolved Galaxies at high-z
- No detection at optical bands (BViz)
- Red J-H colors (undetected in J-band)
- Blue H-K ( i.e. flat H/K SED)
- Red K- m 3.6 (K/IRAC(3.6 m) break)
18 galaxies found with 5 < z < 7
and stellar mass 8 x 1010 – 5 x 1011 Msun
Wiklind et al (2006)
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HUDF vs GOODS
GOODS CDFS – 13 orbits HUDF – 400 orbits
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Discovery of an Extremely Massive and Evolved Galaxy at
z ~ 6.5
Mobasher, B. et al ApJ 2005
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further constraints
- No detection at optical bands (BViz) to the HUDF limit at 2 level
- J110 - H160 > 1.3 corresponding to the observed color of an LBG at z=8, taking
into account IGM opacity
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J-band dropout candidates in the HUDF
• no detection at optical bands• close to slope unit line on H-3.6 vs. K-3.6• red K-3.6 color
Selection criteria (Mobasher et al Ap.J 2005)
(Mobasher et al 2005)
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ACS
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ACS+NICMOS+ISAAC
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ACS+NICMOS+ISAAC+IRAC
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mAB 2.5log f ZPT
f 2
cf
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B V iz
J HK
IRAC
B V iz
J HK
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B V iz
J HK
IRAC
B V iz
J HK
Bruzual and Charlot models (BC03)Starburst99 models (SB99)
Simultaneously fitting:• Redshift z• Extinction EB-V
• Age, t• Star formation history e-folding time • Metallicity Z
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Summary of fitted parameters:
• High redshift, z = 6.5• Luminous, LBOL ~ 1 1012 Lo
• No extinction, EB-V = 0.0
• No on-going star formation• ‘Old’, age ~ 1 Gyr• Very, very massive, M* ~ 5 1011 Mo
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BC03 Starburst99
2 vs. EB-V and redshift
Best fit region covers : 6.0 < z < 7.7
Secondary fit for a dusty galaxy at z ~ 2.5
How stable is the solution?black : 2 minimum (1.9)white : 2 = 10
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z=6.5 evolved
Massive
Single burst
zdustyStarburst
Continous SFR
zoldevolved
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Formation redshift(excluding those with ages > age of the universe)
Results from Monte Carlo simulations:
• z = 6.5• EB-V = 0.0
• Age = 600 Myr• Z = 1.0 Zo
• M* = 4.6 1011 Mo
• zform ~ 10-15
median values
A massive post-starburst galaxy at z ~ 7
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Most frequently asked questions:
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
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z=6.5 evolved
Massive
Single burst
zdustyStarburst
Continous SFR
zoldevolved
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
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Mrk 231 BL QSO ULIRG
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Mrk 231 +NGC 1608 highly obscured AGN
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
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Gemini GNIRS spectroscopy of the z ~ 7 candidate:
No lines detected
Ly (1216) z ~ 7 (0.97 micron)
z ~ 0.8 - 1.2 J-bandz ~ 1.3 - 1.8 H-bandz ~ 2.0 - 2.8 K-band
H (6563)
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No lines detected
Ly (1216) z ~ 7 (0.97 micron)
z ~ 0.8 - 1.2 J-bandz ~ 1.3 - 1.8 H-bandz ~ 2.0 - 2.8 K-band
H (6563)
In addition:
• Gemini-S GNIRS cross-dispersed
•VLT FORS
•HST ACS Grism
•Keck NIRSPEC
Keck and VLT: sensitive to Ly emission fromgalaxies at 6.8 < z < 8.0 with SFR 3-5 Mo/yr
Keck and Gemini: sensitive to H emission fromgalaxies at 0.8 < z < 2.8 (with gaps) with linefluxes 1 10-17 - 2 10-18 erg cm-2 s-1
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
• Could it be gravitationally lensed ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
• Could it be gravitationally lensed ?
• Could it be a star ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
• Could it be gravitationally lensed ?
• Could it be a star ?
• how about other pop synthesis models ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
• Could it be gravitationally lensed ?
• Could it be a star ?
• how about other pop synthesis models ?
• different dust models ?
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Most frequently asked questions:
• Could it be a dusty starburst at z~2 ?
• Could it be an evolved old galaxy at z~2-3 ?
• Does it have MIPS detection ?
• Do you have spectroscopic data ?
• Could it be gravitationally lensed ?
• Could it be a star ?
• how about other pop synthesis models ?
• different dust models ?
• Have you found more objects like this ?
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Sample B J-band drop-out
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z = 4.9EB-V = 0.10age = 700 MyrM* = 8 1011 Mo
z = 7.2EB-V = 0.05age = 400 MyrM* = 4 1011 Mo
z = 5.3EB-V = 0.0age = 300 MyrM* = 0.8 1011 Mo
z = 7.2EB-V = 0.0age = 300 MyrM* = 2 1011 Mo
Sample A massive post-starburst candidates
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Sample A massive post-starburst candidates
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Summary
• We present a technique for selecting very massive evolved galaxies at high redshift.
• This is based on combining deep optical/near-IR data with medium deep Spitzer observations
• An object is found in HUDF with an SED consistent with a post-starburst (evolved) galaxy with M=(2-5) x 1011 Msun at z=6.-7.5. The object has undergone a single burst of SF and has an age of 1 Gyr.
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Cont..
• A less likely possibility is a very dusty evolved galaxy at z=2.5 with an age of ~600 Myrs. However, this produces a significantly worse fit to the observed SED.
• The low-z alternative requires the object to be detected in radio (1.4 GHz) or have spectral features indicative of SF. Our source has none of these.
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Case against dusty post-starburst at low-z
No detection of diagnostic spectral features in the spectra
No radio detection
If the 24 micron flux is due to PAH feature in a star-forming galaxy at z~2, we would have expected to
detect this to the depth of our radio survey.
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local galaxiesm*>2.5E10 MO
m*>1.0E11 MO
EROs
sub-mm
K20
SDSS QSOs
LBGs
Somerville 2004
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z = 7
no extinction
t = 50 Myrt = 100 Myrt = 300 Myrt = 500 Myrt = 600 Myrt = 800 Myr
The Balmer break is a prominent feature for stellar populations age t > 100 Myrs
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z = 3 z = 4 z = 5 z = 6 z = 7
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z = 7
no extinction
At z ~ 6 - 8 the Balmer break falls between theK-band and the IRAC 3.6 micron band
At z ~ 6 - 8 the J-band is significantly fainterthan K for ages of a few 100 Myrs
t = 50 Myrt = 100 Myrt = 300 Myrt = 500 Myrt = 600 Myrt = 800 Myr
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z = 7
no extinction
t = 50 Myrt = 100 Myrt = 300 Myrt = 500 Myrt = 600 Myrt = 800 Myr
At z ~ 6 - 8 the Balmer break falls between theK-band and the IRAC 3.6 micron band
At z ~ 6 - 8 the J-band is significantly fainterthan K for ages of a few 100 Myrs
Selecting galaxies based on their K - 3.6m and J - H colorswould allow isolating very high redshift post-starburst galaxies
Requires high quality near-infrared and Spitzer IRAC photometry
This exists for the GOODS South field